JP2010216244A - Engine integrating various energy conservation cycle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an engine to target 1700 times of the turbine power generation quantity with a water gravity force solar heat power generation. <P>SOLUTION: Two kinds of vertical all moving blade water gravity force solar heat turbines are driven by superheated vapor acceleration of water+compressed air acceleration of water respectively in the water gravity force solar heat power generation. Atmospheric pressure same speed same volume power becomes 1700 times of existing steam turbine power generation. Generation power of the water speed turbine drive with increased head of 1000 m or the like as gravity acceleration in a vertical downward direction is increased. Power generation quantity is made 10 times or the like of the existing world by operation of the water gravity solar heat power generation. Cooperation of anybody such as various automobile heyday, various ship heyday, electric driven all electrification house heyday, factory electrification heyday, and the like of very low cost gravity force solar heat power generation storage battery drive is facilitated. Fuel cost is made 0, exhaust gas of CO2 is made 0, and sea water temperature rise is made 0 to fully eliminate existing thermal power generation, prevent global warming, and postpone extermination of human. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The maximum acceleration of the earth is gravitational acceleration and the maximum heat is sunlight. Therefore, the theoretical best engine divided and used for heat quantity and mass is the vertical all blade water gravity solar thermal turbine 8G2 type, so that the solar heater 2 and the solar thermal suspension suspension bridge 2b are maintained at right angles to the sunlight. The solar heating augmented suspension bridge 2b is also inclined and rotated on land to heat the air in the intake air passage 28A by sunlight and repeatedly heated by the heat pump 1G from 800 to Compressed heat is recovered at 1200 degrees, and is used by dividing and storing it in a mass of 24 to 400 MPa compressed air 28a around 300 degrees + 24-400 MPa superheated steam 50 heat quantity around 500 degrees, and the vertical rotor blade gravity gravitational solar turbine 8G is infinitely multistage. In order to increase the output by providing a head, water is injected into two types of heating turbines of electric heating temperature control by a water injection pump 6z of 400 MPa and the like. In the process of driving, the temperature of the rolling contact is increased by jetting the appropriate hot water for rolling contact, increasing the acceleration air 28a volume with the mass of compressed air 28a around 300 degrees 24 to 400MPa, increasing the rolling contact rotation output of water. As described above, even in the process of driving the amount of heat, the water that is suitable for rolling contact is injected with a water injection pump at 400 MPa or the like, accelerated by superheated steam 50 heat amount and gravitational acceleration, and drives two types of vertical rotor blades water gravity solar thermal turbine 8G. It relates to gravity solar thermal power generation technology.

  The use of steam of 500 ° C or more is put into practical use with existing steam turbines, and the liquid with a large weight and surface tension at 500 ° C or less is the theoretically best power increase sphere 2E, and contains mercury, liquid lead, liquid bismuth, liquid containing alloy As the selected experimental use from the order of tin, liquid cadmium, liquid indium, liquid gallium, liquid zinc, liquid thallium, liquid metal, water, the surface tension, specific gravity, low cost and resource amount of rolling contact suitable water are the largest weapons, etc. The atmospheric pressure, the same speed, and the same volumetric power, kg weight m / sec, are set to 1700 times the amount of hydroelectric power generation of the existing steam turbine power generation. The horizontal shaft 1h is provided between the heating turbines in the process of increasing the head by increasing infinitely, and the horizontal shaft 1h generator 1 and the horizontal shaft 1h heat pump 1G are driven outside the turbine outer casing 77a. Type 全 type full-blade hydrogravity solar turbine 8G alternates the direction of rotation to cancel out vibrations and noise, enabling the generation of water and gravity solar thermal power generation using solar heat recovery. The exhaust heat of the heating calorie turbine is cooled by the exhaust, and the compressed air exhaust is changed to the suction low-pressure low-temperature cooling after the exhaust cooling of the calorie turbine. The present invention relates to a gravitational solar power generation technique for shifting to a seawater temperature rise 0 CO 2 exhaust 0.

  In order to prevent the invention of the follow-up engine, the existing engine is thoroughly deceived as a theoretical best engine in high school and university. When returning to elementary school science and thinking about the theoretical best engine, the unit of output and work rate is kg weight m / second, etc. Due to the weight x speed, it is the theoretical best engine that generates heavy output at a high speed with heavy substances. Furthermore, a 7 degree rise in sea surface temperature of thermal nuclear power generation is believed to have no impact on the environment, and this is obvious, even if the sea level temperature rises 7 degrees for 100 years and CO2 emissions are reduced by nuclear power generation, Because the sea area where the temperature rises by 7 degrees exceeds 1000 times by 10% growth, Antarctic ice is brought close to 0 as a 300m / second typhoon or seasonal wind that is 10 times higher than drought, heavy rain, and wind speed, and land and sea food approaches 0, There is a background to the extinction of mankind. With thermal nuclear power generation, a 7-degree rise in sea surface temperature is said to have no impact on the environment, and TV reports that seaweeds and fish near Japan are nearing extinction are actual. In the IPCC Arctic prediction, since the sea surface temperature rise of 7 degrees is out of the computer calculation, there is a report that the Arctic sea ice area observed in 2007 was close to 40 years after the IPCC Fourth Report. It is good to think of it as a big misinformation, and even if the temperature rises by 1 degree on average, abnormal weather is difficult, and if about 90% thinks that the sea surface temperature will rise by 7 degrees, the sea surface temperature will rise 2-3 times around 100 years 14 ~ There is a background in which the sea area rising 21 degrees approaches the South Pole, the Antarctic ice approaches 0, and the sea level rise approaches 77m.

  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 solar thermal power generation with zero fuel consumption, atmospheric pressure, same speed, same volumetric power, kg weight m / second, 1700 times water power, mercury, liquid lead, liquid bismuth, liquid tin, liquid cadmium, liquid indium, When liquid acceleration such as liquid gallium, liquid zinc, water, liquid thallium, etc. is accelerated downward in the vertical direction, the output generation is greatly increased by the acceleration of gravity acceleration alone rather than the input that increases the head at low speed, and the vaporization explosive force has been added. There is a background that the output can be increased without increasing the number of turbines and increasing the head to 1000 m or more. As the maximum acceleration on the earth is almost infinite in gravitational acceleration, seawater temperature rises 0, CO2 exhaust 0 and fuel cost 0 Theoretical best engine Gravity Solar thermal power generation depletes limited resources such as fossil fuel, so limited resources Recovering and using heat and cold as a means for leaving offspring There is a background that can be used to prevent global warming by driving low-cost power storage batteries and electric drives.

  Decided to invent the theoretical best engine in 1958 and 1980. Actually started with improvements, started the prototype at the Okayama Regional Invention Center in 1963, and continued to make the prototype myself, but the engine prototype was very difficult. . Therefore, in February 1982, we started requesting cooperation from a large number of domestic large corporations, 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. There were so many fatal faults in the existing engine that it was impossible to improve the invention. In a hurry, the 1997 homepage was opened, and a patent for improving one fault was filed. With the cooperation of the former president, for example, gravitational solar power generation drives generators and heat pumps at zero fuel cost, making it possible to produce electricity, heat and cold near infinity at extremely low cost, and large liquid metal power generation below 500 ° C I would like to change the work rate of the same pressure and the same volumetric capacity to 1 to 23,000 times that of the existing steam turbine power generation, actually experiment and move to the best experimental engine.

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 There is an invention that aims for the best.

As prior applications, Japanese Patent Application No. 2007-179204, Japanese Patent Application No. 2007-221970, Japanese Patent Application No. 2007-237367, Japanese Patent Application No. 2007-250348, Japanese Patent Application No. 2007-265115, Japanese Patent Application No. 2008-6612, and Japanese Patent Application No. 2008- No. 22246, Japanese Patent Application No. 2008-24656, Japanese Patent Application No. 2008-28582, Japanese Patent Application No. 2008-30162, Japanese Patent Application No. 2008-94452, Japanese Patent Application No. 2008-99870, Japanese Patent Application No. 2008-125665, Japanese Patent Application No. 2008-134046. No., Japanese Patent Application No. 2008-137629, Japanese Patent Application No. 2008-157556, Japanese Patent Application No. 2008-158830, Japanese Patent Application No. 2008-162842, Japanese Patent Application No. 2008-164111, Japanese Patent Application No. 2008-166907, Japanese Patent Application No. 2008-169799. Japanese Patent Application No. 2008-173046, Japanese Patent Application No. 20 Japanese Patent Application No. 8-174231, Japanese Patent Application No. 2008-178700, Japanese Patent Application No. 2008-179882, Japanese Patent Application No. 2008-181052, Japanese Patent Application No. 2008-182325, Japanese Patent Application No. 2008-186895, Japanese Patent Application No. 2008-188165, Japanese Patent Application No. 2008. No. -202676, Japanese Patent Application No. 2008-203842, Japanese Patent Application No. 2008-206632, Japanese Patent Application No. 2008-209497, Japanese Patent Application No. 2008-214912, Japanese Patent Application No. 2008-229434, Japanese Patent Application No. 2008-231842, Japanese Patent Application No. 2008- No. 243690, Japanese Patent Application No. 2008-244501, Japanese Patent Application No. 2008-249719, Japanese Patent Application No. 2008-256006, Japanese Patent Application No. 2008-266020, Japanese Patent Application No. 2008-269294, Japanese Patent Application No. 2008-282825, Japanese Patent Application No. 2008-288411 No., Japanese Patent Application 2008- No. 90630, Japanese Patent Application No. 2008-295174, Japanese Patent Application No. 2008-290991, Japanese Patent Application No. 2008-305951, Japanese Patent Application No. 2008-319210, Japanese Patent Application No. 2008-327045, Japanese Patent Application No. 2009-011656, Japanese Patent Application No. 2009-011656, Application No. 2009-013856, Japanese Patent Application No. 2009-015027, Japanese Patent Application No. 2009-016249, Japanese Patent Application No. 2009-021161, Japanese Patent Application No. 2009-022247, and Japanese Patent Application No. 2009-023345.

  In the existing world thermal power plants, CO2 increases global warming acceleration and sea surface temperature rises 7 degrees Celsius by 1000 times in 100 years, and the natural phenomenon of supplying nutrients to the sea surface cooling seabed in winter is impossible As a result, phytoplankton, seaweeds, corals, etc. are drastically reduced, fish foods are drastically reduced by the food chain, and fish underwater is drastically reduced, and droughts, heavy rains, typhoons and seasonal winds are increased 10 times in 100 years, etc. Increasing, for example, typhoons and seasonal winds of 300m / second, etc., making land-based food production difficult at an accelerated rate, increasing the danger of human extinction, so there is a challenge to prevent global warming and postpone human extinction, Combustion of fossil fuels in large quantities will cause global warming and resource depletion, so fossil fuel combustion is a minimum necessary and remains a problem for offspring.

Gravity solar power generation, which has gradually shifted from the theoretical best engine to the experimental best engine, will increase the use of solar heat and cold energy as much as possible, and the limited oil resources will remain as important resources without descending to CO2 Together with preventing global warming, preventing droughts, sea level rise, typhoons and seasonal winds from growing, supplying nutrients such as cold oxygen and nitrogen to the ocean floor, and breeding phytoplankton, seaweeds, corals and fish Increase the amount of food, increase the generation of electricity more than 10 times that of the existing world, make the existing world thermal nuclear power plant completely abolished gravitational solar power generation, accelerating the use of gravitational solar power storage battery-powered automobiles, accelerating storage battery-powered various ships and electricity Drive full electrified housing prime, factory electrification prime and hot and cold use prime, generate seawater temperature 0, CO2 exhaust 0 and fuel cost 0, prevent global warming and extermination of mankind Postponed to, close the production of electricity and heat and cold to infinity by gravity solar thermal turbines, etc., it corresponds to the total demand of heat and cold.

  CO2 exhaust 0 Seawater temperature rise 0 Fuel cost 0 vertical type moving blade gravity solar thermal turbine, gravity solar thermal power generation, for example, hydrogravity solar thermal power generation, existing steam with atmospheric pressure, same speed, same volumetric power, kg weight m / second 1700 times the amount of power generation of turbine power generation, 10 times the amount of power generation in the existing world, all types of automobiles driven by gravity solar power storage batteries, all types of ships driven by storage batteries and all electrified homes It has the effect of delaying the extinction of mankind by reducing the total abolished CO2 emissions of the thermal power plant to zero and increasing the sea surface temperature to zero to prevent global warming.

Explanatory drawing of a calorie-driven vertical all blade gravity solar turbine 8G (Example 1) Explanatory drawing of mass driven vertical all blade gravity solar thermal turbine 8G (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 part and the lack of explanation will be explained in duplicate. 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.

  In the calorie-driven water gravity solar power generation of FIG. 1, among the two types of turbines equipped with a calorie-driven and mass-driven heating device of compressed air, a calorie-driven vertical all-blade hydrogravity solar thermal turbine 8G is installed in the turbine outer box 77a. The thrust bearing 80a and the bearing 80 that are provided vertically in multiple stages, such as 1 to 120 stages, to support the weight are provided, and the intake air 28a is heated by sunlight, the long lens 2d, and the heat absorbing material 2B, and a plurality of heat pumps 1G Multiple times suction compression multiple times 800-1200 degrees, multiple times heat recovery around 300-400 degrees, about 200 degrees around 24-400 MPa compressed air 28a mass + around 500 degrees around 24-400 MPa overheated steam 50 heat amount In the process of driving the calorie-driven vertical all-blade water gravity solar thermal turbine 8G, the water is raised and stored at the uppermost position by the increasing sphere raising device 2F with a heat retaining device, and the output increasing means 2 The superheated steam 50 that is stored in an open state is injected, and at the same time, the water 2E is injected by the water injection pump 6z at 400 MPa to drive the calorie-driven vertical-type full-blade water gravity solar thermal turbine 8G and the horizontal axis 1h between the heating calorie turbines. The generator 1 and the heat pump 1G are driven outside the turbine outer box 77a, and the rotation direction of the turbine 8G is alternately offset to cancel the vibrations and noises. The

The calorie-driven vertical all-blade hydrogravity solar thermal turbine 8G is provided with a thrust bearing 80a supporting the weight, a bearing 80, and a gravity acceleration unit 1g for accelerating water, and the gravity acceleration unit 1g is equipped with a generator 1 and a heat pump 1G. A horizontal shaft 1h through-hole to be driven is provided, and the generator 1 and the heat pump 1G are driven outside the turbine outer box 77a, and the calorie-driven vertical all-blade hydrogravity solar thermal turbine 8G is supplied to the water jet pump 6z with water. The injection speed is driven by superheated steam 50 acceleration, the maximum speed of rolling contact temperature is reached by gravitational acceleration, and the atmospheric pressure, the same speed, and the same volumetric power, kg weight m / second, are set to 1700 times the amount of water generation of existing steam turbine power generation. Injecting into the turbine blade cross-section 4X having a cross-sectional area 2 to 26 times the existing turbine blade cross-sectional area, and generating the rolling contact rotation output of the large blade surface with increased strength, the heated mass turbine exhaust 28a of the condenser 2a in the exhaust process The heat The superheated steam 50 is cooled to a low pressure and a low temperature by a huge number of heat pumps 1G to cool the superheated steam 50 as condensate 52a, the condenser 2a is evacuated by the air extractor 51, and water (20 ° C. surface tension 73 dyn / The heating turbine blades are in rolling contact with the heated turbine blades, and the temperature riser 2F with the heat retaining device is used for the preservation at the top, and the seawater temperature rise 0CO2 exhaust 0 fuel cost 0 power generation, the existing thermal nuclear power generation amount is 0 To prevent global warming.

  In the mass-driven hydrogravity solar power generation of FIG. 2, a mass-driven vertical full-blade hydrogravity solar thermal turbine 8G is installed in a turbine outer casing 77a, out of two types of turbines equipped with a heating device for driving the amount of compressed air and driving the mass. The thrust bearing 80a and the bearing 80 that are provided vertically in multiple stages, such as 1 to 120 stages, to support the weight are provided, and the intake air 28a is heated by sunlight, the long lens 2d, and the heat absorbing material 2B, and a plurality of heat pumps 1G Multiple times suction compression multiple times 800-1200 degrees, multiple times heat recovery around 300-400 degrees, about 200 degrees around 24-400MPa compressed air 28a mass + around 500 degrees 24-400MPa superheated steam 50 calorie use In the process of driving the mass driven vertical all blades water gravity solar thermal turbine 8G, the water is raised and stored at the uppermost position by the increasing sphere raising device 2F with a heat retaining device, and the output increasing means 2 The compressed air 28a in which the gas is stored in an open state is injected, and at the same time, water 2E is injected by the water injection pump 6z at 400 MPa to drive the mass driven vertical all blade hydrogravity solar thermal turbine 8G and the horizontal axis 1h between the heating turbines. The generator 1 and the heat pump 1G are driven outside the turbine outer box 77a, and the rotation direction of the turbine 8G is alternately offset to cancel the vibrations and noises. The

The mass driven vertical all-water blade hydrogravity solar thermal turbine 8G is provided with a thrust bearing 80a supporting the weight, a bearing 80 and a gravity acceleration unit 1g for accelerating water, and the gravity acceleration unit 1g is equipped with a generator 1 and a heat pump 1G. A horizontal shaft 1h through-hole to be driven is provided, and the generator 1 and the heat pump 1G are driven outside the turbine outer box 77a, and the mass driven vertical all blade hydrogravity solar thermal turbine 8G is injected by the water injection pump 6z. The speed is driven by the acceleration of compressed air 28a, the water speed of the compressed air speed is set by the gravitational acceleration, the atmospheric pressure, the same speed, and the same volumetric power, kg weight m / sec. Injecting into the turbine blade cross section 4X, which has a cross-sectional area 2 to 26 times the cross-sectional area, and increasing the rotational output to heat the compressed air and the rolling contact of the large blade surface with increased strength, the compressed air exhaust of the heating mass turbine is A large number of heat pumps 1G, for example, make suction low-pressure low-temperature air, increase the rotation output as suction low-pressure low-temperature, recover the cooling heat of the exhaust heat superheated steam of the heating calorie turbine, and repeatedly recover the high-pressure compression heat recovery amount with the heat pump 1G , Increase seawater temperature 0 CO2 exhaust 0 fuel cost 0 power generation, existing thermal nuclear power generation amount 0 to prevent global warming.

  The solar heater 2 of 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 500 degrees, and sets the width of the long lens 2d to 10 m. 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. A heat-resistant material 2A is provided to heat the air 28a with a plate-like heat absorbing material 2B that is heated to high temperatures by solar heat, and a plurality of wide and long lenses 2d are provided on the upper part so as to be sealed by a joint 80A and a fastening tool 80B so as to be sealed in a vacuum. Can be extended with a joint 80A in the longitudinal direction. 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 for maintaining and rotating, the solar heater 2 can be made lighter and smaller by heating the air 28a by allowing the air pump 1G to perform a plurality of suction and compression 600-1200 degrees by heating the air pump 1G. 1 Compressive heat recovery unit 2C is driven.

  The solar thermal augmentation suspension bridge 2b in FIG. 4 uses various shores. As in the above, the semicircular shape is formed in a rectangular shape, 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 align the solar thermal augmentation suspension bridge 2b with the moving direction of sunlight, and rotate it in two directions at all times to receive light at right angles. 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 500 degrees, for example, the intake air Plate 28A The temperature of the air 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 lenses such as a plurality of wide lenses d is provided by a joint 80A + clamp 80B so that it can be sealed and insulated by heat, and can be extended by a joint 80A in the longitudinal direction. In the case of 180 ° change of direction, the suction air passage 28A is connected by a U-shaped pipe. Are installed in parallel and inclined 180 degrees from east to west on land, and the solar thermal augmentation suspension bridge 2b is a device that rotates and tilts in two directions at right angles to sunlight, and the amount of compressed air + the amount of compressed air in the compressed heat recovery unit 2C The energy storage cycle in which the vertical turbine blade heat turbine 8G + vertical turbine blade mass turbine 8G is driven and the thermal turbine exhaust is cooled by the mass turbine exhaust.

  Seawater temperature rise 0 CO2 exhaust 0 fuel cost 0 Theoretical best engine ratio critical material gravity solar power generation eliminates existing thermal nuclear power generation as 10 times the amount of existing world power generation, and drives low cost specific material gravity solar power storage battery Accelerate human extinction by migrating from the best engine to the best engine result, by preventing the global warming by making all kinds of automobiles, all kinds of ships, all kinds of electrified houses, and factory electrification prime. There is a possibility.

  DESCRIPTION OF SYMBOLS 1: Generator, 1A: Mercury exhaust test room, 1B: Oxygen amount increasing means, 1C: Alcohol cold heat, 1D: Fuel injection pump, 1F: Water pump, 1G: Heat pump, 1H: Pumping pump, 1b: Fuel, 1c 1d: Mercury, 1e: Coated steel ball (coated with impact reducing means 2G) 1e: Coated mercury (coated with durable material such as spherical stainless steel and impact reducing means 2G) 1g: Gravity acceleration part, 1h: Horizontal Axis 2: Sunlight heater (tracking by tilting and rotating sunlight with a long lens) 2a: Condenser, 2b: Solar heat increasing suspension bridge (up and down the left and right of the hanging tool, tilting and rotating sunlight with multiple long lenses 2c: heat insulating material, 2d: long lens, 2e: water surface, 2f: hanging tool left, 2g: hanging tool right, 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 balls, lead alloy balls, silver alloy balls, 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 ball, Coated tantalum alloy ball, Molybdenum steel ball, Coated molybdenum steel ball, Molybdenum cast iron ball, Coated molybdenum cast iron ball, Silver ball, Coated silver ball) 2F: Increase ball rising device, 2G: Impact reducing means (small diameter ball, lubricated) 2H: Cold condenser, Airfoil solar heater, 2X: Air heat exchanger, 2Y: Water heat exchanger, 2Z: Mercury Heat exchanger, 3: Friction loss reducing means (water repellent effect, heating high temperature means, friction loss is reduced by optimal use of known technology coating, etc.) 3A: Water repellent action (friction loss reducing means with water) Means (high temperature with existing technology such as electric resistance and electromagnetic heating) 3C: Cold energy recovery means, 3G: Water repellent action (means for reducing friction loss with mercury) 4A: Turbine blade cross section (existing cross section) 4B: Turbine blade cross section ( 4C: Turbine blade cross section (Output surface straight cross section) 4D: 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 cross section (existing 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, 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, 6Y: combustion gas nozzle, 6Z: mercury injection pump, 7: fuel injection valve, 7A: propeller, 7B: rotor blade, 7C: Screw, 8a: all blade blade turbine (all blade gas turbine or all blade mass turbine), 8b: all blade blade water turbine (all blade water turbine or all blade heat quantity turbine), 8c: turbine blade 8d: Side plate, 8e: Cylindrical cylinder, 8E: All blade impeller mercury turbine (all blade mercury turbine) 8F: All-blade flywheel gravity turbine, 8G: Vertical all-blade gravity solar thermal turbine (Vertical all-blade calorie turbine + Vertical all-blade mass turbine), 8K: Opposite series total Rotor blade wheel turbine (opposite series full blade pusher mercury turbine opposite series full blade pusher water turbine opposite series full blade pusher gas turbine opposed series full blade pusher gravity turbine), 8L: series full bucket flywheel turbine (all in series (1) Hull, (1) Hull, (10A) Bulkhead, (11A) Bulkhead, (11B) Water chamber, (11C) Air 16: Crankshaft, 21: Expanded piston, 24: Combustion gas control valve, 24A: Compressed air control valve, 25: Superheated steam control valve, 25B: High temperature water control Valve 25: Intake valve 25b: Fuel control valve 28a: Air 28a: Internal air 28a: Air pipe air 28b: Compressed air calorie 28A: Intake air path 28B: Air path inlet 37a: Magnetization Friction wheel, 37b: Inner magnetized friction wheel, 38B: Air-injected ship, 39A: Solar gravity airplane, 39B: Solar gravity rotating airplane, 39C: Solar gravity helicopter, 39D: Screw ship, 39F: Space shuttle, 46: Magnet 49: combustion gas, 49B: chimney combustion gas calorie, 49C: factory use calorie, 50: superheated steam, 51: air extractor, 52a: water, 52b: water (water whose temperature changes with sunlight) 52b: high temperature Water, 52d: warm heat, 52d: water heat, 52d: superheated steam heat, 52e: cold heat, 52e: water cold heat, 52e: compressed air cold heat, 52e: cold alcohol, 52e: ice cold, 55: gear type synchronous device, 55B: magnetic friction transmission (including gear type and water pump) 55Y: gear type transmission (selected from existing transmission) 60A: inner shaft Device, 60B: outer shaft device, 60C: inner rotor blade group, 60D: outer shaft group, 77B: cylindrical outer box, 77a: turbine outer box, 78K: coalescence engine injection unit, 79M: water jet, 80: bearing, 80a: thrust bearing, 80A: joint, 80B: clamp, 81: support shaft, 81a: fulcrum, 84: counter rotating magnetic friction power transmission device (including gear type and water pump combined use) 84Y: counter rotating gear Equipment (existing technology) 94: fixed outer box, 94A: vertical part of outer box, 95: hot water reservoir, 95a: combustion gas reservoir, 95b: compressed air reservoir, 95A: water absorption channel, 95B: Fuel reservoir, 96A: Water supply path, 97: Check valve, 103: Cold heat recovery device,

Claims (5000)

  Turbine blade cross section (4A) 2 to 26 times gravity solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Increase power generation amount + Heat retention increase ball riser (2F) Use water to save and use + Increase long lens width Compressing heated air to approach 1200 degrees + Accelerating water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy conservation cycle coalescing engines that tilt and rotate the solar thermal suspension suspension on land.   Turbine blade cross section (4B) 5 times gravity solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + heat retention increase ball riser (2F) water storage and use + long lens width increase heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 6 times gravity solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + heat retention increase ball riser (2F) water storage and use + long lens width increase heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4D) 7 times gravity solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Increase power generation amount + Heat retention increase ball lift device (2F) Use water to save and use + Long lens width increase heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4E) 8 times gravity solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + heat retention increase ball riser (2F) water storage and use + long lens width increase heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4F) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of hot and cold energy + long lens makes sunlight straight into heat absorbing material + Keeping water in the warming and increasing ball rising device (2F) + Preserving and using the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and heating mass turbine and heating A combined energy storage cycle engine that drives a calorie turbine and rotates a suspension bridge with increased solar heat on the land.   Turbine blade cross section (4A) 10 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate water vertically downwards + make use of hot and cold energy + long lens makes sunlight straight into heat absorbing material + Keeping water in the warming and increasing ball rising device (2F) + Preserving and using the water + Compressing the heated air to increase the width of the long lens to approach 1200 degrees + Accelerating hot water vertically downward and heating mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross-section (4B) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting water in a warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heating mass for power generation by accelerating rolling contact with water vertically downward Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4C) 12 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting water in a warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4D) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate water vertically downwards + make use of hot and cold heat + long lens makes sunlight straight into heat absorbing material + Collecting the water in a warm-heat-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens and compress the heated air closer to 1200 degrees + Heat the water with compressed air acceleration to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4E) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Keeping water in the warming and increasing ball rising device (2F) + Preserving and using the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and heating mass turbine and heating A combined energy storage cycle engine that drives a calorie turbine and rotates a suspension bridge with increased solar heat on the land.   Turbine blade cross-section (4F) gravity solar power heating turbines with a 15-fold multi-stage structure and method of accelerating water vertically downward + making hot and cold use prime + straightening sunlight into heat absorber with long lens + Keeping water in the warming and increasing ball rising device (2F) + Preserving and using the water + Compressing the heated air to increase the width of the long lens to approach 1200 degrees + Accelerating hot water vertically downward and heating mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross-section (4A) 16 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate water vertically downward + make use of hot and cold energy + long lens makes sunlight straight into heat absorbing material + Collecting water in a warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heating mass for power generation by accelerating rolling contact with water vertically downward Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4B) 17-times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting water in a warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4C) 18-times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting the water in a warm-heat-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens and compress the heated air closer to 1200 degrees + Heat the water with compressed air acceleration to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4D) 19-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   Turbine blade cross section (4E) 20 times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power heating turbines with 21 times the turbine blade cross section (4F) + accelerating the water in the vertical direction + water storage battery-powered vessels + + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross-section (4A) 22-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4B) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4C) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + heat retention and increase ball lift device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   Turbine blade cross section (4D) 25 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   Turbine blade cross-section (4E) with 26 times gravity solar power generation heating turbine in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with double turbine blade cross-section (4F) + making storage battery-powered various vessels primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating the water vertically downward by providing multiple stages of gravitational solar power heating turbines with triple turbine blade cross-section (4A) + storage battery-powered various ships primed + water with warming and increasing ball lift device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating water vertically downward by providing gravity turbines with four times the turbine blade cross-section (4B) in the vertical direction, + accumulating water in various battery-powered vessels + water retaining and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power heating turbines with 5 times the turbine blade cross section (4C) + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating the water vertically by installing multiple stages of gravity solar power heating turbines with 6 times the turbine blade cross-section (4D) + accelerating the water in the vertical direction + water storage battery-powered vessels + + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically by installing multiple stages of gravitational solar power heating turbines with 7 times the turbine blade cross-section (4E) + accelerating water vertically + water storage battery-powered vessels + + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 8 times the turbine blade cross section (4F) + accelerating the water vertically + water storage battery-powered various vessels primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   Turbine blade cross-section (4A) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically by installing multiple stages of gravitational solar power heating turbines with 10 times the turbine blade cross section (4B) + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating the water vertically by installing gravity turbines with 11 times the turbine blade cross section (4C) in multiple stages + accelerating the storage battery-powered vessels + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross-section (4D) 12-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward by providing multiple stages of gravity turbines with 13 times the turbine blade cross-section (4E) + accelerating water vertically + water storage battery-powered vessels priming + water with warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating the water vertically by installing multiple stages of gravity turbines with 14 times the turbine blade cross section (4F) + accelerating the water vertically + water storage battery-powered various vessels primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4A) 15 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4B) 16 times gravity gravity solar power heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4C) 17-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4D) 18-times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4E) 19-times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downwards + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power generation heating turbines with a turbine blade cross section (4F) 20 times larger + water storage battery-powered various vessels primed + water retention and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 21 times the turbine blade cross section (4A) + accelerating the water vertically + accelerating various battery-powered vessels + water with a warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4B) 22 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lift device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4C) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4D) 24 times gravity solar power heating turbines are provided in multiple stages to accelerate water vertically downwards + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   A structure and method for accelerating water vertically downwards by providing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4E) of 25 times + accelerating the water vertically + storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   A structure and method for accelerating the water vertically by installing multiple stages of gravity turbines with 26 times the turbine blade cross section (4F) + accelerating the water vertically + water storage battery-powered various vessels primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   A structure and method for accelerating the water vertically by providing multiple stages of gravity solar thermal heating turbines with double turbine blade cross section (4A) + storage battery-powered various ships primed + warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with three times the turbine blade cross-section (4B) + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   Turbine blade cross-section (4C) 4 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle combined engine that accelerates water vertically and drives a heating mass turbine and a heating calorie turbine.   Turbine blade cross section (4D) 5 times gravity solar thermal power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engines that accelerate hot water vertically downward to drive a heating mass turbine and a heating calorie turbine, and rotate and rotate a solar thermal suspension suspension bridge on land.   Turbine blade cross section (4E) 6 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engine that tilts and rotates the suspension bridge with solar heat to drive the heating mass turbine and heating calorie turbine for power generation using accelerated rolling contact with water vertically downward.   Turbine blade cross section (4F) 7 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engines that rotate heated solar turbines and heating calorie turbines with hot water accelerated and contacted vertically downward and tilting and rotating solar thermal suspension bridges on land.   Turbine blade cross section (4A) 8 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engine that heats the air by accelerating the compressed air and drives the heating mass turbine and heating calorie turbine for power generation.   Turbine blade cross section (4B) 9 times gravity solar thermal power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4C) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4D) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4E) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4F) 13 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4A) 14 times gravity solar power generation generating heating turbine blade method + power increase sphere (2E) is accelerated with small diameter + long lens width increase heating air is compressed 1200 + Energy conservation cycle coalescence engine that accelerates the water vertically and drives the heating mass turbine and the heating calorie turbine + rotates the solar thermal suspension suspension on land.   Turbine blade cross-section (4B) 15 times gravity solar power generation generation heating turbine blade method + power increase sphere (2E) is accelerated with a small diameter + long lens width increase heating air compressed 1200 + Energy conservation cycle coalescence engine that accelerates the high temperature water vertically downward to drive the heating mass turbine and heating heat quantity turbine + Rotating the solar thermal suspension suspension bridge on the land.   Turbine blade cross section (4C) 16-times gravity solar power generation generating heating turbine blade method + power increasing sphere (2E) is accelerated with a small diameter + long lens width increasing heating air compressed 1200 + Energy conservation cycle coalescence engine that drives the heating mass turbine and heating calorie turbine for power generation by accelerating rolling contact with water vertically downward + Tilting and rotating the solar thermal suspension bridge on land.   Turbine blade cross section (4D) 17-times gravity solar power generation generating heating turbine blade method + power increasing sphere (2E) is accelerated with a small diameter + long lens width increasing heating air compressed 1200 + Energy conservation cycle coalescence engine that drives the heating mass turbine and heating calorie turbine of power generation using hot water as an accelerated rolling contact vertically downward + rotating the solar thermal suspension suspension on land.   Turbine blade cross section (4E) 18 times gravity solar power generation generating heating turbine blade method + power increasing sphere (2E) is accelerated with small diameter + long lens width increasing heating air compressed 1200 + Energy conservation cycle coalescence engine that heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4F) 19-times gravity solar power generation heating turbines are provided in multiple stages to accelerate specific critical substances vertically downward + Accelerating turbine drive with small output sphere (2E) + Long lens + Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   A structure and method for accelerating specific critical substances vertically downward by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross-section (4A) of 20 times + Accelerating turbine drive with a small diameter of the output increasing sphere (2E) + Long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4B) 21 times gravity gravitational solar power heating turbines are provided in multiple stages to accelerate specific critical materials vertically downward + Accelerating turbine drive with small output sphere (2E) + Long lens + Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   A structure and method of accelerating specific critical materials vertically downward by providing gravity solar power heating turbines with 22 times the turbine blade cross-section (4C) + the power increasing sphere (2E) with a small diameter + driving the acceleration turbine + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   A structure and method for accelerating specific critical substances vertically downward by providing multiple stages of gravity solar thermal heating turbines with 23 times the turbine blade cross section (4D) + Accelerating turbine drive with a small output sphere (2E) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4E) with 24 times gravity solar power generation heating turbine + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multistage turbine blade cross section (4F) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing a 26-fold gravity solar power generation heating turbine with a turbine blade cross section (4A) + a fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of a turbine blade section (4B) with multiple gravity solar power generation heating turbines + making a full electrified house primed + a heat retaining sphere raising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by providing three stages of gravity solar power heating turbines with three times the turbine blade cross section (4C) + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross-section (4D) 4 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4E) 5 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4F) 6 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) to use and store water + long lens width increase heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4A) 7-fold gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross-section (4B) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 9 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4D) 10 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating high temperature water vertically by using multiple stages of gravity solar thermal heating turbines with 11 times the turbine blade cross section (4E). + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravity solar thermal heating turbines with 12 times the turbine blade cross section (4F). + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4A) 13 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4B) 14x gravity solar power output generation Heating turbine blades to make all turbine blades + Factory electrification prime + Insulate and use water riser (2F) + Preserve long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4C) 15 times gravity solar power generation output heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4D) 16x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing sphere lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4E) 17x gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4F) 18 times gravitational solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4A) 19-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4B) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4C) 21 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4D) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4E) 23-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4F) with 24 times gravity solar power generation heating turbine + Fully electrified house priming + Heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4A) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing a 26-fold gravity solar power generation heating turbine with a turbine blade cross section (4B) in a multi-stage + full electrification house priming + a heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   With a structure and method of accelerating water vertically downward in the heat insulation turbine with the turbine blade cross section (4C) in multiple stages with double gravity solar power generation heating turbines + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multi-stage gravity solar thermal heating turbine with triple turbine blade cross section (4D) + making the whole electrified house prime + thermal insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4E) 4 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4F) 5 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4A) 6 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4B) 7 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + increased long lens width heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4C) 8 times gravity solar power generation structure and method + storage battery drive various automobiles primed + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4D) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + make sunlight into heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4E) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4F) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4A) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4B) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold + sunlight to heat absorber with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 14 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4D) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4E) 16 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4F) 17-times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lifting device (2F) to use water rising and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4A) 18x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4B) 19-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross-section (4D) gravity solar power heating turbines with 21 times the gravity turbine structure and method of accelerating specific substances vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4E) 22 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4F) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4A) 24 times gravity solar power generation heating turbine is provided in multiple stages to accelerate water vertically downward in the heat insulation turbine + full electrified house prime + heat increase ball riser (2F) Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4B) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating the water vertically downward in the heat retaining turbine with a turbine blade cross section (4C) in multiple stages with a 26 times gravity solar power generation heating turbine + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   With a structure and method for accelerating water vertically downward in the heat insulation turbine with a turbine blade cross section (4D) with multiple gravity solar power generation heating turbines in multiple stages + Fully electrified housing prime + Heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a turbine blade cross-section (4E) in multiple stages with gravity solar power generation heating turbines in multiple stages + Fully electrified house prime + Heat insulation increase ball riser (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4F) 4 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + increase long lens width heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4A) 5 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4B) 6 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing ball lifting device (2F) used to store and save water + long lens width increased heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 7 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use water + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross-section (4D) 8 times gravity solar power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4E) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4F) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4A) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4B) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold + sunlight to heat absorber with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4C) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4D) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4E) 16 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4F) 17-times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lifting device (2F) to use water rising and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4A) 18x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4B) 19 times gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4C) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4D) gravity solar power heating turbines with 21 times the gravity turbine structure and method of accelerating specific substances vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4E) 22 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4F) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4A) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4B) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating the water vertically downward in the heat retaining turbine with a turbine blade cross section (4C) in multiple stages with a 26 times gravity solar power generation heating turbine + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   With a structure and method for accelerating water vertically downward in the heat insulation turbine with a turbine blade cross section (4D) with multiple gravity solar power generation heating turbines in multiple stages + Fully electrified housing prime + Heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a turbine blade cross-section (4E) in multiple stages with gravity solar power generation heating turbines in multiple stages + Fully electrified house prime + Heat insulation increase ball riser (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multi-stage gravity solar thermal heating turbine with 4 times the turbine blade cross section (4F) + making the whole electrified house prime + thermal insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4A) 5 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4B) 6 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing ball lifting device (2F) used to store and save water + long lens width increased heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 7 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4D) 8 times gravity solar power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross-section (4E) 9 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4F) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4A) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4B) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4C) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4D) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4E) 15 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing sphere lift device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4F) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use and store water up + long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4A) 17x gravity solar power generation generation heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4B) 18 times gravity solar power generation generation heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4C) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4D) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4E) gravity solar power heating turbines with 21 times the gravity turbine structure and method of accelerating the specific material vertically downward + heat and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross-section (4F) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4A) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4B) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4C) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4D) with 26 times gravity solar power generation heating turbine + making the whole electrified house prime + heat retaining increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4E) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with three times the turbine blade cross section (4F) in the vertical direction + full electrification house priming + heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power heating turbine with four times the turbine blade cross section (4A) + making the whole electrified house prime + a heat retaining ball increasing device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4B) 5 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4D) 7 times gravity solar power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4E) 8 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4F) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + increased long lens width heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4A) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross-section (4B) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravity solar thermal heating turbines with 12 times the turbine blade cross-section (4C) + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4D) 13 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4E) 14 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4F) 15x gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4A) 16x gravity solar power output generation Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water riser (2F) + Preserve long lens + Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4B) 17 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4C) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4D) 19 times gravity solar power generation generation heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4E) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4F) 21-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long-lens heat absorption material for sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4A) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4B) 23-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multistage turbine blade cross section (4D) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing a 26-fold gravity solar power generation heating turbine with a turbine blade cross-section (4E) + full electric electrified house prime + heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in the heat retaining turbine by providing multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4F) + Fully electrified house priming + Heat retention increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravity solar thermal heating turbine with three times the turbine blade cross section (4A) + making the entire electrified house primed + heat retaining and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power heating turbine with 4 times the turbine blade cross section (4B) + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4C) 5 times gravity solar thermal power generation structure and method + storage battery drive various automobiles primed + warming and increasing ball lift device (2F) to use water for storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4D) 6 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4E) 7 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4F) 8 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4A) 9 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to store and use water + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4B) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross-section (4C) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4D) 12 times gravity gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4E) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4F) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4A) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4B) 16 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4C) 17 times gravitational solar power output generation Heating turbine blade equipment method + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4D) 18x gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4E) 19 times gravity solar power generation generating heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4F) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4A) 21-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4B) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4C) 23 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4D) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4E) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing a turbine blade cross-section (4F) in multiple stages with a 26 times gravity solar power generation heating turbine + full electric electrified house priming + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of a turbine blade cross section (4A) in multiple gravity solar power generation heating turbines + making a full electrified house primed + warming increase sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravity solar thermal heating turbine with a turbine blade cross section (4B) of 3 times + making the whole electrified house prime + a heat insulation increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power heating turbine with four times the turbine blade cross section (4C) + making the whole electrified house prime + warming increase sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross-section (4D) 5 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing sphere lifting device (2F) to store and use water + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4E) 6 times gravity solar power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to store and use water + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4F) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4A) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to use water storage and storage + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4B) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4D) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4E) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it close to 1200 degrees Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4F) 13 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4A) 14 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4B) 15 times gravity solar power generation generation heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4C) 16 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water rising and storage + long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4D) 17 times gravity solar power generation output heating equipment method to make all turbine blades + factory electrification primed + warming and increasing ball rising device (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4E) 18 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4F) 19 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water riser (2F) + Preserve long lens + Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4A) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4B) 21-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4C) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4D) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4E) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multistage turbine blade cross section (4F) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing a 26-fold gravity solar power generation heating turbine with a turbine blade cross section (4A) + a fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of a turbine blade section (4B) with multiple gravity solar power generation heating turbines + making a full electrified house primed + a heat retaining sphere raising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by providing three stages of gravity solar power heating turbines with three times the turbine blade cross section (4C) + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a gravity blade with a four times the turbine blade cross-section (4D) + making the whole electrified house prime + with a heat-increasing sphere raising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross-section (4E) 5 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4F) 6 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) to use and store water + long lens width increase heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4A) 7-fold gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4B) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4C) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Configuration and method of accelerating 10 times gravity solar thermal water vertically downward on the turbine blade cross section (4D) + + Using the warming and increasing ball rising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens + Accelerate the water vertically downward to drive the heating mass turbine and the heating calorie turbine + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Configuration and method of accelerating the gravity blade thermal power generation water 11 times the vertical direction of the turbine blade cross section (4E) + + Using the warming and increasing sphere lifting device (2F) to store and use the water + Compressing the heated air to increase the long lens width + Nearly 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating heat quantity turbine + Various energy conservation cycle coalescence engines that rotate and rotate the solar thermal suspension bridge on land.   Configuration and method of accelerating 12 times gravity solar thermal power water vertically down the turbine blade cross section (4F) + + Using the warming and increasing ball rising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens Then, the energy conservation cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine for power generation by accelerating and rolling the water vertically downward in contact with the water + the solar thermal augmentation suspension bridge on the land.   Configuration and method of accelerating 13 times gravity solar thermal power water vertically downward on the turbine blade cross section (4A) + + Using the warming-increasing sphere lifting device (2F) to store and use the water + Compressing the heated air to increase the width of the long lens + Nearly 1200 degrees + High-speed water is accelerated and contacted vertically downward to drive the heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Configuration and method of accelerating 14 times gravity solar thermal power generation vertically down the turbine blade cross section (4B) + + Using the warming and increasing ball lifting device (2F) to store and use the water + Increase the width of the long lens Compress the heated air + Nearly 1200 degrees + Water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method for accelerating 15 times gravity solar thermal power generation vertically down turbine blade cross section (4C) + + Using water retention increasing sphere lifting device (2F) to save and use + Compressing air for increased heating of long lens + Accelerate the water vertically downward to drive the heating mass turbine and the heating calorie turbine + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method of accelerating 16 times gravity solar thermal power water vertically downward on the turbine blade cross section (4D) + + Using the warming and increasing sphere lifting device (2F) to save and use the water + Compressing the heated air of the long lens + Nearly 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating heat quantity turbine + Various energy conservation cycle coalescence engines that rotate and rotate the solar thermal suspension bridge on land.   Configuration and method for accelerating 17 times gravity solar thermal water vertically downward on turbine blade cross section (4E) + + Using water retention and increasing ball lift device (2F) to save and use + Compressing heated air with longer lens length Then, the energy conservation cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine for power generation by accelerating and rolling the water vertically downward in contact with the water + the solar thermal augmentation suspension bridge on the land.   Configuration and method for accelerating 18 times gravity solar thermal water vertically downward on the turbine blade cross section (4F) + + Using the warming and increasing sphere lifting device (2F) to store and use the water + Compressing the heated air to increase the width of the long lens + Nearly 1200 degrees + High-speed water is accelerated and contacted vertically downward to drive the heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   The turbine blade cross section (4A) is a 19-fold gravity solar power generation configuration and method that accelerates vertically downward ++ Uses a warming and increasing sphere lift (2F) to store and use water + Increases the width of the long lens Heated air is compressed + Nearly 1200 degrees + Water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 20 times the turbine blade cross section (4B) + accelerating water vertically + water storage battery-powered various vessels primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power heating turbines with 21 times the turbine blade cross section (4C) + accelerating the water in the vertical direction + water storage battery driven vessels + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4D) 22 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4E) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4F) 24 times gravity solar power heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4A) 25-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downwards + storage battery-driven various ships primed + warming and increasing ball lift device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating the water vertically by installing multiple stages of gravity solar thermal heating turbines with 26 times the turbine blade cross-section (4B) + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with twice the turbine blade cross-section (4C) + accelerating the water vertically + water storage battery-powered vessels + + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating the water vertically by installing gravity turbines with three times the turbine blade cross-section (4D) in the vertical direction + water storage battery-powered various ships primed + water with a warming and increasing ball lifting device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross-section (4E) + accelerating water vertically + water storage battery-powered various vessels primed + warming and increasing ball lift device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar thermal heating turbines with 5 times the turbine blade cross section (4F) + accelerating the water vertically + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating the water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 6 times the turbine blade cross section (4A) + storage battery-powered various ships primed + water with warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4B) 7 times larger + water storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating the water vertically by installing multiple stages of gravity solar power heating turbines with 8 times the turbine blade cross section (4C) + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4D) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating the water vertically downward by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross section (4E) of 10 times + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar thermal heating turbines with 11 times the turbine blade cross section (4F) + accelerating water downwards + water storage battery driven vessels + + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4A) 12 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating the water vertically by providing gravity turbines with 13-fold gravity solar power heating turbines with a turbine blade cross-section (4B) in a multi-stage + water battery driven various ships priming + water with a warming and increasing ball raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross-section (4C) 14-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downwards + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method of accelerating water vertically by installing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4D) of 15 times + accelerating water vertically + accelerating various battery-powered boats + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4E) 16 times gravity gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4F) 17-times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4A) 18-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4B) 19-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downwards + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4C) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate the water vertically + water battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically by providing multiple stages of gravity solar power heating turbines with 21 times the turbine blade cross section (4D) + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4E) 22-fold gravity solar power heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar thermal heating turbines with 23 times the turbine blade cross section (4F) + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4A) 24 times gravity solar power heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4b) 25 times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 26 times the turbine blade cross section (4C) + accelerating water vertically + water storage battery-powered various vessels primed + heat-retaining and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with twice the turbine blade cross section (4D) + accelerating the water in the vertical direction + accelerating the storage battery-driven vessels + + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with three times the turbine blade cross section (4E) + accelerating the water in the vertical direction + water storage battery-powered vessels + + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   A structure and method of accelerating water vertically by installing multiple stages of gravity solar power generation heating turbines with 4 times the turbine blade cross section (4F) + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   Turbine blade cross section (4A) 5 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head as much as possible with the warming and increasing ball lifting device (2F) + Use the warming and increasing ball lifting device (2F) to raise and store water + Compress the air to increase the width of the long lens and heat 1200 + Energy conservation cycle coalescence engine that accelerates the water vertically and drives the heating mass turbine and the heating calorie turbine + rotates the solar thermal suspension suspension on land.   Turbine blade cross section (4B) 6 times gravity solar thermal power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head as much as possible with the warming and increasing ball lifting device (2F) + Use the warming and increasing ball lifting device (2F) to raise and store water + Compress the air to increase the width of the long lens and heat 1200 + Energy conservation cycle coalescence engine that accelerates the high temperature water vertically downward to drive the heating mass turbine and heating heat quantity turbine + Rotating the solar thermal suspension suspension bridge on the land.   Turbine blade cross section (4C) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head as much as possible with the warming and increasing ball lifting device (2F) + Use the warming and increasing ball lifting device (2F) to raise and store water + Compress the air to increase the width of the long lens and heat 1200 + Energy conservation cycle coalescence engine that drives the heating mass turbine and heating calorie turbine for power generation by accelerating rolling contact with water vertically downward + Tilting and rotating the solar thermal suspension bridge on land.   Turbine blade cross section (4D) 8 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head as much as possible with the warming and increasing ball lifting device (2F) + Use the warming and increasing ball lifting device (2F) to raise and store water + Compress the air to increase the width of the long lens and heat 1200 + Energy conservation cycle coalescence engine that drives the heating mass turbine and heating calorie turbine of power generation using hot water as an accelerated rolling contact vertically downward + rotating the solar thermal suspension suspension on land.   Turbine blade cross section (4E) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold + solar light as heat absorbing material Gather in a straight line + Increase the head as much as possible with the warming and increasing ball lifting device (2F) + Use the warming and increasing ball lifting device (2F) to raise and store water + Compress the air to increase the width of the long lens and heat 1200 + Energy conservation cycle coalescence engine that heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4F) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4A) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4B) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4C) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4D) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4E) 15 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing sphere lift device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4F) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use and store water up + long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4A) 17x gravity solar power generation generation heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4B) 18 times gravity solar power generation generation heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4C) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4D) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4E) gravity solar power heating turbines with 21 times the gravity turbine structure and method of accelerating the specific material vertically downward + heat and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross-section (4F) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4A) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4B) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4C) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4D) with 26 times gravity solar power generation heating turbine + making the whole electrified house prime + heat retaining increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4E) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with three times the turbine blade cross section (4F) in the vertical direction + full electrification house priming + heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power heating turbine with four times the turbine blade cross section (4A) + making the whole electrified house prime + a heat retaining ball increasing device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4B) 5 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4D) 7 times gravity solar power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4E) 8 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4F) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + increased long lens width heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   A structure and method for accelerating high-temperature water vertically downwards by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross-section (4A) of 10 times + ++ Using a warming and increasing sphere rising device (2F) to save and use + long lens Compressing the heated air and bringing it closer to 1200 degrees + Accelerating water vertically downward to drive the heated mass turbine and heated calorie turbine + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   A structure and method for accelerating hot water vertically downward by providing 11 stages of gravity solar power generation heating turbines with 11 times the turbine blade cross section (4B) + + Using the warming and increasing sphere rising device (2F) to save and use + long lens Compressing the heated air and bringing it closer to 1200 degrees + Accelerating the hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land .   A structure and method for accelerating hot water vertically downward by providing multiple stages of gravity solar power heating turbines with 12 times the turbine blade cross section (4C) +++ Using the warming and increasing ball rising device (2F) to save and use + long lens Compressing the heated air and bringing it closer to 1200 degrees + Accelerating the water vertically downward to drive the heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycles to rotate the solar thermal suspension bridge on the land Combined organization.   A structure and method for accelerating high-temperature water vertically downward by providing 13 stages of gravity solar power heating turbines with 13 times the turbine blade cross section (4D) +++ Using the warming and increasing sphere lifting device (2F) to save and use + long lens Compressing the heated air and bringing it close to 1200 degrees + Driving hot mass turbine and heating calorie turbine for power generation using hot water accelerated and contacted vertically downward + Saving various energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   A structure and method for accelerating high temperature water vertically by installing multiple stages of gravity solar power heating turbines with 14 times the turbine blade cross section (4E) ++ Using the warming and increasing sphere lifting device (2F) to save and use + long lens Compressing the heated air and bringing it closer to 1200 ° C + Heating the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Various energy to tilt and rotate the solar thermal suspension suspension on land Conservation cycle coalescence organization.   Turbine blade cross section (4F) 15x gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4A) 16x gravity solar power output generation Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water riser (2F) + Preserve long lens + Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4B) 17 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4C) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4D) 19 times gravity solar power generation generation heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4E) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4F) 21-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long-lens heat absorption material for sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4A) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4B) 23-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multistage turbine blade cross section (4D) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing a 26-fold gravity solar power generation heating turbine with a turbine blade cross-section (4E) + full electric electrified house prime + heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in the heat retaining turbine by providing multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4F) + Fully electrified house priming + Heat retention increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravity solar thermal heating turbine with three times the turbine blade cross section (4A) + making the entire electrified house primed + heat retaining and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power heating turbine with 4 times the turbine blade cross section (4B) + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4C) 5 times gravity solar thermal power generation structure and method + storage battery drive various automobiles primed + warming and increasing ball lift device (2F) to use water for storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4D) 6 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4E) 7 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4F) 8 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4A) 9 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to store and use water + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4B) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross-section (4C) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4D) 12 times gravity gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4E) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4F) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4A) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4B) 16 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4C) 17 times gravitational solar power output generation Heating turbine blade equipment method + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4D) 18x gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4E) 19 times gravity solar power generation generating heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4F) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4A) 21-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4B) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4C) 23 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4D) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4E) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing a turbine blade cross-section (4F) in multiple stages with a 26 times gravity solar power generation heating turbine + full electric electrified house priming + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of a turbine blade cross section (4A) in multiple gravity solar power generation heating turbines + making a full electrified house primed + warming increase sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravity solar thermal heating turbine with a turbine blade cross section (4B) of 3 times + making the whole electrified house prime + a heat insulation increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power heating turbine with four times the turbine blade cross section (4C) + making the whole electrified house prime + warming increase sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross-section (4D) 5 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing sphere lifting device (2F) to store and use water + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4E) 6 times gravity solar power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to store and use water + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4F) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4A) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to use water storage and storage + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4B) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4D) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4E) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it close to 1200 degrees Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4F) 13 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4A) 14 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4B) 15 times gravity solar power generation generation heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4C) 16 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water rising and storage + long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4D) 17 times gravity solar power generation output heating equipment method to make all turbine blades + factory electrification primed + warming and increasing ball rising device (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4E) 18 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4F) 19 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water riser (2F) + Preserve long lens + Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4A) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4B) 21-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4C) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4D) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4E) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multistage turbine blade cross section (4F) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing a 26-fold gravity solar power generation heating turbine with a turbine blade cross section (4A) + a fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of a turbine blade section (4B) with multiple gravity solar power generation heating turbines + making a full electrified house primed + a heat retaining sphere raising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by providing three stages of gravity solar power heating turbines with three times the turbine blade cross section (4C) + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a gravity blade with a four times the turbine blade cross-section (4D) + making the whole electrified house prime + with a heat-increasing sphere raising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross-section (4E) 5 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4F) 6 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) to use and store water + long lens width increase heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4A) 7-fold gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4B) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4C) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4D) 10 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   A structure and method for accelerating high temperature water vertically by using multiple stages of gravity solar thermal heating turbines with 11 times the turbine blade cross section (4E). + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravity solar thermal heating turbines with 12 times the turbine blade cross section (4F). + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it close to 1200 degrees Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4A) 13 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4B) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of No.4 + and rotates the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 15 times gravity solar power generation output heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4D) 16x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing sphere lift device (2F) to use water storage and storage + long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4E) 17x gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4F) 18 times gravitational solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4A) 19 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4B) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 21 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross-section (4D) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4E) 23-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of No.4 + and rotates the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4F) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold energy + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation and rotate the suspended suspension bridge on the land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4A) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing a 26-fold gravity solar power generation heating turbine with a turbine blade cross section (4B) in a multi-stage + full electrification house priming + a heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   With a structure and method of accelerating water vertically downward in the heat insulation turbine with the turbine blade cross section (4C) in multiple stages with double gravity solar power generation heating turbines + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multi-stage gravity solar thermal heating turbine with triple turbine blade cross section (4D) + making the whole electrified house prime + thermal insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multistage gravity turbine with 4 times the turbine blade cross section (4E) + full electrification of the house + warming increase sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4F) 5 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4A) 6 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4B) 7 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + increased long lens width heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 8 times gravity solar power generation structure and method + storage battery drive various automobiles primed + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4D) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to use and store water + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4E) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross-section (4F) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4A) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4B) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold + sunlight to heat absorber with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4C) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4D) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4E) 16 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4F) 17-times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lifting device (2F) to use water rising and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4A) 18x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4B) 19 times gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4C) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4D) gravity solar power heating turbines with 21 times the gravity turbine structure and method of accelerating specific substances vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4E) 22 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4F) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4A) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4B) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating the water vertically downward in the heat retaining turbine with a turbine blade cross section (4C) in multiple stages with a 26 times gravity solar power generation heating turbine + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   With a structure and method for accelerating water vertically downward in the heat insulation turbine with a turbine blade cross section (4D) with multiple gravity solar power generation heating turbines in multiple stages + Fully electrified housing prime + Heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a turbine blade cross-section (4E) in multiple stages with gravity solar power generation heating turbines in multiple stages + Fully electrified house prime + Heat insulation increase ball riser (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multi-stage gravity solar thermal heating turbine with 4 times the turbine blade cross section (4F) + making the whole electrified house prime + thermal insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4A) 5 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4B) 6 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing ball lifting device (2F) used to store and save water + long lens width increased heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 7 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4D) 8 times gravity solar power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross-section (4E) 9 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4F) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4A) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4B) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4C) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4D) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4E) 15 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing sphere lift device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4F) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use and store water up + long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4A) 17x gravity solar power generation generation heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4B) 18 times gravity solar power generation generation heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4C) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4D) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4E) gravity solar power heating turbines with 21 times the gravity turbine structure and method of accelerating the specific material vertically downward + heat and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross-section (4F) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4A) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4B) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4C) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4D) with 26 times gravity solar power generation heating turbine + making the whole electrified house prime + heat retaining increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4E) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with three times the turbine blade cross section (4F) in the vertical direction + full electrification house priming + heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power heating turbine with four times the turbine blade cross section (4A) + making the whole electrified house prime + a heat retaining ball increasing device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4B) 5 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4D) 7 times gravity solar power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4E) 8 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4F) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + increased long lens width heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4A) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross-section (4B) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravity solar thermal heating turbines with 12 times the turbine blade cross-section (4C) + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4D) 13 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4E) 14 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4F) 15x gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4A) 16x gravity solar power output generation Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water riser (2F) + Preserve long lens + Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4B) 17 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4C) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4D) 19 times gravity solar power generation generation heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4E) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4F) 21-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long-lens heat absorption material for sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4A) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4B) 23-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multistage turbine blade cross section (4D) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing a 26-fold gravity solar power generation heating turbine with a turbine blade cross-section (4E) + full electric electrified house prime + heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in the heat retaining turbine by providing multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4F) + Fully electrified house priming + Heat retention increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravity solar thermal heating turbine with three times the turbine blade cross section (4A) + making the entire electrified house primed + heat retaining and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power heating turbine with 4 times the turbine blade cross section (4B) + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4C) 5 times gravity solar thermal power generation structure and method + storage battery drive various automobiles primed + warming and increasing ball lift device (2F) to use water for storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4D) 6 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4E) 7 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4F) 8 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4A) 9 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to store and use water + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Configuration and method of accelerating 10 times gravity solar thermal power generation vertically downward on turbine blade cross section (4B) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using a warming and increasing ball raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Accelerate the water vertically downward and heat mass turbine and heating calorie turbine + Energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension suspension bridge on land.   Configuration and method of accelerating 11 times gravity solar thermal power generation vertically down turbine blade cross section (4C) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase the temperature of the heat retention bulb riser (2F) for storage and storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward to heat the mass turbine and heat Combined engine for various energy conservation cycles that drives the turbine and tilts and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4D) configuration and method of accelerating 12 times gravity solar power water vertically downward + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using the warming and increasing ball lifting device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 ° C A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Configuration and method for accelerating 13 times gravity solar thermal power generation vertically down the turbine blade cross section (4E) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using warming and increasing ball lift device (2F) + Increase the width of long lens and compress heating air to approach 1200 degrees + Heating mass turbine for power generation by accelerating rolling contact with hot water vertically downward And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Configuration and method of accelerating 14 times gravity solar thermal power generation vertically down turbine blade cross section (4F) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase the temperature of the warming-increasing sphere lifting device (2F) and store it. + Increase the width of the long lens. Compress the heated air and bring it closer to 1200 degrees. Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Configuration and method of accelerating 15 times gravity solar thermal power generation vertically down turbine blade cross section (4A) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using a warming and increasing ball raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Accelerate the water vertically downward and heat mass turbine and heating calorie turbine + Energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension suspension bridge on land.   Configuration and method for accelerating 16-fold gravity solar thermal power generation vertically down turbine blade cross section (4B) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase the temperature of the heat retention bulb riser (2F) for storage and storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward to heat the mass turbine and heat Combined engine for various energy conservation cycles that drives the turbine and tilts and rotates the solar thermal suspension bridge on land.   Configuration and method of accelerating 17 times gravity solar thermal power generation vertically down turbine blade cross section (4C) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using the warming and increasing ball lifting device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 ° C A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Configuration and method of accelerating 18 times gravity solar thermal power generation vertically down turbine blade cross section (4D) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using warming and increasing ball lift device (2F) + Increase the width of long lens and compress heating air to approach 1200 degrees + Heating mass turbine for power generation by accelerating rolling contact with hot water vertically downward And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4E) 19 times gravity solar thermal power generation configuration and method + air pipe air is sucked by compression heat recovery and heated turbine driven by superheated steam (50) and compressed air (28a) respectively + Increase the temperature of the warming-increasing sphere lifting device (2F) and store it. + Increase the width of the long lens. Compress the heated air and bring it closer to 1200 degrees. Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power generation heating turbines with a turbine blade cross section (4F) 20 times larger + water storage battery-powered various vessels primed + water retention and increasing ball lifting device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 21 times the turbine blade cross section (4A) + accelerating the water vertically + accelerating various battery-powered vessels + water with a warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4B) 22 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lift device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4C) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4D) 24 times gravity solar power heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downwards by providing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4E) of 25 times + accelerating the water vertically + storage battery-powered various ship priming + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating the water vertically by installing multiple stages of gravity turbines with 26 times the turbine blade cross section (4F) + accelerating the water vertically + water storage battery-powered various vessels primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with twice the turbine blade cross section (4A) + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with three times the turbine blade cross-section (4B) + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with 4 times the turbine blade cross section (4C) + accelerating the water in the vertical direction + accelerating the storage battery-driven vessels + + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar thermal heating turbines with 5 times the turbine blade cross section (4D) + accelerating the water in the vertical direction + storage battery-powered vessels + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 6 times the turbine blade cross-section (4E) + accelerating the water vertically + water storage battery-powered various ships prime + + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with a turbine blade cross section (4F) of 7 times + water storage battery-driven various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating the water vertically by installing multiple stages of gravity solar thermal heating turbines with 8 times the turbine blade cross section (4A) + storage battery-powered various ship priming + water with a warming and increasing ball raising device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4B) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating the water vertically downward by providing gravity turbines with 10 times the turbine blade cross section (4C) in the vertical direction + storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 11 times the turbine blade cross section (4D) + accelerating the water vertically + water storage battery-powered various vessels primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross-section (4E) 12-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 13 times the turbine blade cross section (4F) + accelerating the water vertically + water storage battery-powered various ships priming + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4A) 14 times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar thermal heating turbines with a turbine blade cross section (4B) of 15 times + water storage battery-driven various ships prime + water with a warming and increasing ball raising device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4C) 16 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + make storage battery driven various ships primed + warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4D) 17-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downwards + storage battery driven various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4E) 18-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4F) 19-times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4A) 20 times gravity solar power heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 21 times the turbine blade cross section (4B) + accelerating the water vertically + water storage battery-powered various vessels primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4C) 22 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4D) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4E) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4F) 25-times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 26 times the turbine blade cross section (4A) + accelerating water vertically + water storage battery-powered various vessels primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with twice the turbine blade cross section (4B) + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with three times the turbine blade cross section (4C) + accelerating the water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross section (4D) + accelerating the water vertically + water storage battery-powered various vessels primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Combined engine for various energy storage cycles that recovers and uses the combined air temperature and cold energy.   Turbine blade cross-section (4E) 5 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle combined engine that accelerates water vertically and drives a heating mass turbine and a heating calorie turbine.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravity solar thermal heating turbines with 6 times the turbine blade cross section (4F) Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engines that accelerate hot water vertically downward to drive a heating mass turbine and a heating calorie turbine, and rotate and rotate a solar thermal suspension suspension bridge on land.   Turbine blade cross section (4A) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold + sunlight to heat absorber with long lens Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engine that tilts and rotates the suspension bridge with solar heat to drive the heating mass turbine and heating calorie turbine for power generation by accelerating rolling contact with water vertically downward.   Turbine blade cross section (4B) 8 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engines that rotate heated solar turbines and heating calorie turbines with hot water accelerated and contacted vertically downward and tilting and rotating solar thermal suspension bridges on land.   Turbine blade cross section (4C) 9 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engine that heats the air by accelerating the compressed air and drives the heating mass turbine and heating calorie turbine for power generation.   Turbine blade cross section (4D) 10 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   A structure and method for accelerating high temperature water vertically by using multiple stages of gravity solar thermal heating turbines with 11 times the turbine blade cross section (4E). + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravity solar thermal heating turbines with 12 times the turbine blade cross section (4F). + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it close to 1200 degrees Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4A) 13 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4B) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of No.4 + and rotates the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 15 times gravity solar power generation output heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4D) 16x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing sphere lift device (2F) to use water storage and storage + long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4E) 17x gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4F) 18 times gravitational solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4A) 19 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4B) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 21 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross-section (4D) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4E) 23-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of No.4 + and rotates the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4F) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold energy + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation and rotate the suspended suspension bridge on the land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4A) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing a 26-fold gravity solar power generation heating turbine with a turbine blade cross section (4B) in a multi-stage + full electrification house priming + a heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   With a structure and method of accelerating water vertically downward in the heat insulation turbine with the turbine blade cross section (4C) in multiple stages with double gravity solar power generation heating turbines + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multi-stage gravity solar thermal heating turbine with triple turbine blade cross section (4D) + making the whole electrified house prime + thermal insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multistage gravity turbine with 4 times the turbine blade cross section (4E) + full electrification of the house + warming increase sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4F) 5 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4A) 6 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4B) 7 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + increased long lens width heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 8 times gravity solar power generation structure and method + storage battery drive various automobiles primed + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4D) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to use and store water + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4E) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross-section (4F) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4A) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4B) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold + sunlight to heat absorber with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4C) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4D) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4E) 16 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4F) 17-times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lifting device (2F) to use water rising and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4A) 18x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4B) 19 times gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4C) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4D) gravity solar power heating turbines with 21 times the gravity turbine structure and method of accelerating specific substances vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4E) 22 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4F) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4A) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4B) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating the water vertically downward in the heat retaining turbine with a turbine blade cross section (4C) in multiple stages with a 26 times gravity solar power generation heating turbine + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   With a structure and method for accelerating water vertically downward in the heat insulation turbine with a turbine blade cross section (4D) with multiple gravity solar power generation heating turbines in multiple stages + Fully electrified housing prime + Heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a turbine blade cross-section (4E) in multiple stages with gravity solar power generation heating turbines in multiple stages + Fully electrified house prime + Heat insulation increase ball riser (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multi-stage gravity solar thermal heating turbine with 4 times the turbine blade cross section (4F) + making the whole electrified house prime + thermal insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4A) 5 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4B) 6 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing ball lifting device (2F) used to store and save water + long lens width increased heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 7 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4D) 8 times gravity solar power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross-section (4E) 9 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4F) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4A) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4B) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4C) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4D) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4E) 15 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing sphere lift device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4F) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use and store water up + long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4A) 17x gravity solar power generation generation heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4B) 18 times gravity solar power generation generation heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4C) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4D) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4E) gravity solar power heating turbines with 21 times the gravity turbine structure and method of accelerating the specific material vertically downward + heat and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross-section (4F) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4A) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4B) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4C) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4D) with 26 times gravity solar power generation heating turbine + making the whole electrified house prime + heat retaining increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4E) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method of accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with three times the turbine blade cross section (4F) in the vertical direction + full electrification house priming + heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power heating turbine with four times the turbine blade cross section (4A) + making the whole electrified house prime + a heat retaining ball increasing device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4B) 5 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4D) 7 times gravity solar power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4E) 8 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4F) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + increased long lens width heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4A) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross-section (4B) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravity solar thermal heating turbines with 12 times the turbine blade cross-section (4C) + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4D) 13 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4E) 14 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4F) 15x gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4A) 16x gravity solar power output generation Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water riser (2F) + Preserve long lens + Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4B) 17 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4C) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4D) 19 times gravity solar power generation generation heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4E) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4F) 21-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long-lens heat absorption material for sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4A) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4B) 23-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multistage turbine blade cross section (4D) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing a 26-fold gravity solar power generation heating turbine with a turbine blade cross-section (4E) + full electric electrified house prime + heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in the heat retaining turbine by providing multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4F) + Fully electrified house priming + Heat retention increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravity solar thermal heating turbine with three times the turbine blade cross section (4A) + making the entire electrified house primed + heat retaining and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power heating turbine with 4 times the turbine blade cross section (4B) + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4C) 5 times gravity solar thermal power generation structure and method + storage battery drive various automobiles primed + warming and increasing ball lift device (2F) to use water for storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4D) 6 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4E) 7 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4F) 8 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4A) 9 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to store and use water + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4B) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross-section (4C) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4D) 12 times gravity gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4E) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4F) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4A) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4B) 16 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4C) 17 times gravitational solar power output generation Heating turbine blade equipment method + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4D) 18x gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4E) 19 times gravity solar power generation generating heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4F) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4A) 21-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4B) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4C) 23 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4D) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4E) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing a turbine blade cross-section (4F) in multiple stages with a 26 times gravity solar power generation heating turbine + full electric electrified house priming + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of a turbine blade cross section (4A) in multiple gravity solar power generation heating turbines + making a full electrified house primed + warming increase sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravity solar thermal heating turbine with a turbine blade cross section (4B) of 3 times + making the whole electrified house prime + a heat insulation increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power heating turbine with four times the turbine blade cross section (4C) + making the whole electrified house prime + warming increase sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross-section (4D) 5 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing sphere lifting device (2F) to store and use water + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4E) 6 times gravity solar power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to store and use water + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4F) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4A) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to use water storage and storage + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4B) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4D) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4E) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it close to 1200 degrees Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4F) 13 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4A) 14 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4B) 15 times gravity solar power generation generation heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4C) 16 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water rising and storage + long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4D) 17 times gravity solar power generation output heating equipment method to make all turbine blades + factory electrification primed + warming and increasing ball rising device (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4E) 18 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4F) 19 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water riser (2F) + Preserve long lens + Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4A) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4B) 21-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4C) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4D) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4E) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multistage turbine blade cross section (4F) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing a 26-fold gravity solar power generation heating turbine with a turbine blade cross section (4A) + a fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing multiple stages of a turbine blade section (4B) with multiple gravity solar power generation heating turbines + making a full electrified house primed + a heat retaining sphere raising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by providing three stages of gravity solar power heating turbines with three times the turbine blade cross section (4C) + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a gravity blade with a four times the turbine blade cross-section (4D) + making the whole electrified house prime + with a heat-increasing sphere raising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross-section (4E) 5 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4F) 6 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) to use and store water + long lens width increase heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4A) 7-fold gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4B) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4C) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4D) 10 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   A structure and method for accelerating high temperature water vertically by using multiple stages of gravity solar thermal heating turbines with 11 times the turbine blade cross section (4E). + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravity solar thermal heating turbines with 12 times the turbine blade cross section (4F). + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it close to 1200 degrees Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4A) 13 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4B) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of No.4 + and rotates the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 15 times gravity solar power generation output heating equipment blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4D) 16x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing sphere lift device (2F) to use water storage and storage + long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4E) 17x gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4F) 18 times gravitational solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4A) 19 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4B) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 21 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross-section (4D) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4E) 23-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of No.4 + and rotates the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4F) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold energy + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation and rotate the suspended suspension bridge on the land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4A) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing a 26-fold gravity solar power generation heating turbine with a turbine blade cross section (4B) in a multi-stage + full electrification house priming + a heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   With a structure and method of accelerating water vertically downward in the heat insulation turbine with the turbine blade cross section (4C) in multiple stages with double gravity solar power generation heating turbines + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multi-stage gravity solar thermal heating turbine with triple turbine blade cross section (4D) + making the whole electrified house prime + thermal insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multistage gravity turbine with 4 times the turbine blade cross section (4E) + full electrification of the house + warming increase sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4F) 5 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4A) 6 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4B) 7 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + increased long lens width heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4C) 8 times gravity solar power generation structure and method + storage battery drive various automobiles primed + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross section (4D) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to use and store water + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4E) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross-section (4F) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4A) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4B) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold + sunlight to heat absorber with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4C) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4D) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating to approach 1200 degrees + Accelerates water vertically downward to drive a heated mass turbine and a heated heat turbine + Various energy conservation cycle coalescing engines that tilt and rotate a solar increased suspension bridge on land.   Turbine blade cross section (4E) 16 times gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air of width increasing heating and approaching 1200 degrees + Accelerating high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates the solar heating suspension bridge on land.   Turbine blade cross section (4F) 17-times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lifting device (2F) to use water rising and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + accelerating and rolling water vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + various energy conservation cycle combinations that tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4A) 18x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with high-temperature water as an accelerated rolling contact vertically downward + Various energy conservation cycles to rotate and rotate the solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4B) 19 times gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating water with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Saving energy by tilting and rotating the solar thermal suspension bridge on land Cycle coalescence engine.   Turbine blade cross section (4C) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward and heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4D) gravity solar power heating turbines with 21 times the gravity turbine structure and method of accelerating specific substances vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward and heat the mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4E) 22 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4F) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4A) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4B) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating the water vertically downward in the heat retaining turbine with a turbine blade cross section (4C) in multiple stages with a 26 times gravity solar power generation heating turbine + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   With a structure and method for accelerating water vertically downward in the heat insulation turbine with a turbine blade cross section (4D) with multiple gravity solar power generation heating turbines in multiple stages + Fully electrified housing prime + Heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a turbine blade cross-section (4E) in multiple stages with gravity solar power generation heating turbines in multiple stages + Fully electrified house prime + Heat insulation increase ball riser (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power generation heating turbine with four times the turbine blade cross section (4F) + making the whole electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4A) 5 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air to approach 1200 degrees + Accelerate water vertically downward to drive a heated mass turbine and heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4B) 6 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing ball lifting device (2F) used to store and save water + long lens width increased heating Compressed air and approaching 1200 degrees + Accelerating hot water vertically downward to drive a heated mass turbine and a heated calorie turbine + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 7 times gravity solar thermal power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heating calorie turbine for power generation by accelerating and rolling the water vertically downward + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4D) 8 times gravity solar power generation structure and method + battery powered various automobiles priming + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drive hot mass turbine and heated calorie turbine for high-temperature water by vertically rolling contact + Drive various energy conservation cycle coalescence engines that rotate solar thermal suspension suspension on land.   Turbine blade cross-section (4E) 9 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air approaches 1200 degrees + water is heated by compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Configuration and method for accelerating 10 times gravity solar thermal power generation vertically down turbine blade cross section (4F) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using a warming and increasing ball raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Accelerate the water vertically downward and heat mass turbine and heating calorie turbine + Energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension suspension bridge on land.   Configuration and method of accelerating 11 times the gravity solar thermal power generation vertically down turbine blade cross section (4A) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase the temperature of the heat retention bulb riser (2F) for storage and storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward to heat the mass turbine and heat Combined engine for various energy conservation cycles that drives the turbine and tilts and rotates the solar thermal suspension bridge on land.   Structure and method for accelerating 12 times gravity solar thermal power generation vertically downward on turbine blade cross section (4B) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using the warming and increasing ball lifting device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heating mass turbine for power generation as an accelerated rolling contact with water vertically downward and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Configuration and method of accelerating 13 times gravity solar thermal power generation vertically downward with turbine blade cross section (4C) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using warming and increasing ball lift device (2F) + Increase the width of long lens and compress heating air to approach 1200 degrees + Heating mass turbine for power generation by accelerating rolling contact with hot water vertically downward And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Structure and method of accelerating 14 times gravity solar thermal power generation vertically down turbine blade cross section (4D) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase the temperature of the warming-increasing sphere lifting device (2F) to save and use + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to heat the heating mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Configuration and method of accelerating 15 times gravity solar thermal power generation vertically down turbine blade cross section (4E) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using a warming and increasing ball raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Accelerate the water vertically downward and heat mass turbine and heating calorie turbine + Energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension suspension bridge on land.   Configuration and method for accelerating 16-fold gravity solar thermal power generation vertically down turbine blade cross section (4F) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase the temperature of the heat retention bulb riser (2F) for storage and storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward to heat the mass turbine and heat Combined engine for various energy conservation cycles that drives the turbine and tilts and rotates the solar thermal suspension bridge on land.   Configuration and method for accelerating 17 times gravity solar thermal power water vertically downward on turbine blade cross section (4A) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using the warming and increasing ball lifting device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heating mass turbine for power generation as an accelerated rolling contact with water vertically downward and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Configuration and method for accelerating 18 times gravity solar thermal power generation vertically down turbine blade cross section (4B) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using warming and increasing ball lift device (2F) + Increase the width of long lens and compress heating air to approach 1200 degrees + Heating mass turbine for power generation by accelerating rolling contact with hot water vertically downward And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4C) 19-times gravity solar thermal power generation configuration and method + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a) respectively + Increase the temperature of the warming-increasing sphere lifting device (2F) to save and use + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to heat the heating mass Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross-section (4D) 20-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 21 times the turbine blade cross section (4E) + accelerating the water vertically + water storage battery-powered vessels + + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 22 times the turbine blade cross section (4F) + accelerating the water vertically + water storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross-section (4A) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4B) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate the water vertically downward + make storage battery driven various ships primed + heat retention increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross section (4C) of 25 times + accelerating the storage battery drive with various warming sphere lifting devices (2F) Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity turbines with 26 times the turbine blade cross section (4D) + accelerating high-temperature water + accelerating storage battery-driven vessels Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4E) + accelerating the storage battery drive with various warming sphere lifting devices (2F) Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method of accelerating high-temperature water vertically downward by providing multiple stages of gravitational solar power heating turbines with triple turbine blade cross section (4F) + storage battery-powered various ship priming + heat-retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating high-temperature water vertically downward by providing four stages of gravity solar power generation heating turbines with four times the turbine blade cross section (4A) + accelerating storage battery-powered vessels + warming-increasing sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating high-temperature water vertically downward by installing multiple stages of gravity solar thermal heating turbines with 5 times the turbine blade cross section (4B) + accelerating the storage battery drive with various warming sphere lifting devices (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar power heating turbines with 6 times the turbine blade cross section (4C) + accelerating the storage battery drive with various warming sphere lifting devices (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravitational solar power heating turbines with a turbine blade cross section (4D) of 7 times + accelerating the storage battery drive with various warming sphere lifting devices (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating high-temperature water vertically downward by installing gravity turbines with 8 times the turbine blade cross section (4E) in the vertical direction + storage battery-powered various ships primed + heat-retaining and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 9 times the turbine blade cross section (4F) + storage battery-powered various ships priming + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating high-temperature water vertically downward by providing 10-fold gravity solar power generation heating turbines with a turbine blade cross section (4A) in multiple stages, and using the storage battery-powered various ships as a prime. Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of 11-times gravity solar thermal heating turbines with a turbine blade cross section (4B) + storage battery-powered various ship primes + heat-retaining and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar power heating turbines with 12 times the turbine blade cross-section (4C) + storage battery-powered various ship priming Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method of accelerating high-temperature water vertically downward by providing multiple stages of 13 times gravity solar thermal heating turbines with a turbine blade cross-section (4D) + accelerating storage battery-powered vessels + warming-increasing sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by providing gravity turbines with 14 times the turbine blade cross-section (4E) in the vertical direction + storage battery-powered various ship primes + heat-retaining and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power generation heating turbines with a turbine blade cross section (4F) 15 times larger + making the battery-powered various ships prime + water with warming and increasing ball raising device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by providing 16-times gravity solar power generation heating turbines with 16 times the turbine blade cross section (4A) + accelerating storage battery-powered vessels + warming and increasing ball raising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 17 times the turbine blade cross section (4B) + accelerating storage battery-driven various ships + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross-section (4C) 18-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4D) 19-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Drive the heated mass turbine and heating calorie turbine of the power generation as hot rolling contact with hot water vertically downward + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4E) 20 times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power heating turbines with 21 times the turbine blade cross section (4F) + accelerating the water in the vertical direction + water storage battery-powered vessels + + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by providing 22 stages of gravity solar thermal heating turbines with a turbine blade cross section (4A) of 22 times. Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross section (4B) of 23 times + accelerating the storage battery drive + warming-increasing sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4C) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + storage battery driven various ship priming + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4D) of 25 times + accelerating the storage battery drive with various warming sphere lifting devices (2F) The energy storage cycle coalescing engine that uses the water to store and save + the longer lens width increases and compresses the heated air to bring it closer to 1200 degrees + collects and uses the combined air temperature and cold energy.   A structure and method for accelerating high-temperature water vertically downward by installing a gravity solar power generation heating turbine with 26 times the turbine blade cross section (4E) + acceleration of various battery-powered vessels + heat-retaining and increasing ball lifting device (2F) The energy storage cycle coalescing engine that uses the water to store and save + the longer lens width increases and compresses the heated air to bring it closer to 1200 degrees + collects and uses the combined air temperature and cold energy.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with double turbine blade cross-section (4F) + storage battery-powered various ship primes + heat-retaining and increasing ball lifting device (2F) The energy storage cycle coalescing engine that uses the water to store and save + the longer lens width increases and compresses the heated air to bring it closer to 1200 degrees + collects and uses the combined air temperature and cold energy.   A structure and method for accelerating high-temperature water vertically downward by providing three stages of gravity solar thermal heating turbines with three times the turbine blade cross section (4X) + storage battery-powered various ship primes + heat retention increasing ball lift device (2F) The energy storage cycle coalescing engine that uses the water to store and save + the longer lens width increases and compresses the heated air to bring it closer to 1200 degrees + collects and uses the combined air temperature and cold energy.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 4 times the turbine blade cross section (4X) + storage battery-powered various ship primes + heat retention increasing ball lift device (2F) The energy storage cycle coalescing engine that uses the water to store and save + the longer lens width increases and compresses the heated air to bring it closer to 1200 degrees + collects and uses the combined air temperature and cold energy.   Turbine blade cross-section (4X) 5 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle combined engine that accelerates water vertically and drives a heating mass turbine and a heating calorie turbine.   Turbine blade cross-section (4X) 6 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engines that accelerate hot water vertically downward to drive a heating mass turbine and a heating calorie turbine, and rotate and rotate a solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engine that tilts and rotates the suspension bridge with solar heat to drive the heating mass turbine and heating calorie turbine for power generation using accelerated rolling contact with water vertically downward.   Turbine blade cross section (4X) 8 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engines that rotate heated solar turbines and heating calorie turbines with hot water accelerated and contacted vertically downward and tilting and rotating solar thermal suspension bridges on land.   Turbine blade cross section (4X) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engine that heats the air by accelerating the compressed air and drives the heating mass turbine and heating calorie turbine for power generation.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4X) 14-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting the water in a warm-heat-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens and compress the heated air closer to 1200 degrees + Heat the water with compressed air acceleration to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width heating and approaching 1200 degrees + Accelerating high-temperature heavy water vertically downward to drive the heating mass turbine and heating calorie turbine for power generation + Various energy to tilt and rotate the solar thermal increase suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compress air with increased width heating to approach 1200 degrees + Accelerate hot water of heavier material vertically down to drive the heating mass turbine and heating calorie turbine for power generation + Inclined rotation of the solar increased suspension bridge on land Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating and approached 1200 degrees + Heavy material water accelerated and contacted vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compress air with increased width heating and bring it closer to 1200 degrees + Drive water heating mass turbine and heating calorie turbine by accelerating rolling contact with heavier substance water vertically downward + Various types of tilting rotation of solar thermal increase suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water to drive a heated mass turbine and heated calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate a solar thermal increase suspension bridge on land .   Turbine blade cross-section (4X) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing ball rising device (2F) + Using the long lens to increase the width Compress the heated air to approach 1200 degrees + Accelerate the heavy substance water vertically downward Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4X) gravity solar power heating turbines with 21 times multiple stages, a structure and method for accelerating specific critical materials vertically downwards + making hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air of the long lens and increasing the heating air to approach 1200 degrees + Accelerating the water of a heavier substance vertically downward Combines various energy storage cycle engines that drive a heated mass turbine and a heated calorie turbine and rotate the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lift device (2F) + Storing and using the long lens width + Compressing the heated air close to 1200 degrees + Accelerating the rolling of the heavy substance water to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air to approach 1200 degrees + Accelerate the hot water of heavier material vertically downward Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation as a rolling contact and tilt and rotate the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Using the long lens to increase the width Compressing the heated air to approach 1200 degrees + Accelerating the hot water of heavy substances to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 26 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravity solar power generation heating turbine with double turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation as accelerated rolling contact with heavy material water with compressed air + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage gravity solar thermal heating turbine with three times the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine for power generation using accelerated rolling contact with heavier material water with compressed air + Various energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravitational solar power generation heating turbine with 4 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates the hot water of heavy material to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates the solar thermal expansion suspension bridge on land .   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compress air and bring it closer to 1200 ° C + Drive hot mass turbine and heating calorie turbine for power generation by accelerating rolling contact with heavier material hot water vertically downward + Various energy conservation cycles to tilt and rotate solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating high-temperature water of heavy substances to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavy substance water with compressed air to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate the water of heavier material with compressed air Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and store water + Enhance the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate rolling contact with heavy material water with compressed air Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with heavier material water vertically downward As an energy-saving cycle coalescence engine that drives the heating mass turbine and heating calorie turbine for power generation, and + rotates the solar thermal suspension suspension on the land.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to store and use water + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Accelerating the hot water of heavy substances to heat the power generation Various energy storage cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar suspension suspension bridges on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width heating and approaching 1200 degrees + Accelerating high-temperature heavy water vertically downward to drive the heating mass turbine and heating calorie turbine for power generation + Various energy to tilt and rotate the solar thermal increase suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating the water of a heavier substance vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + Various energy for tilting and rotating a solar heating suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating and approached 1200 degrees + Heavy material water accelerated and contacted vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compress air with increased width heating and bring it closer to 1200 degrees + Drive water heating mass turbine and heating calorie turbine by accelerating rolling contact with heavier substance water vertically downward + Various types of tilting rotation of solar thermal increase suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water to drive a heated mass turbine and heated calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate a solar thermal increase suspension bridge on land .   Turbine blade cross-section (4X) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing ball rising device (2F) + Using the long lens to increase the width Compress the heated air to approach 1200 degrees + Accelerate the heavy substance water vertically downward Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4X) gravity solar power heating turbines with 21 times multiple stages, a structure and method for accelerating specific critical materials vertically downwards + making hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing ball lift device (2F) to store and use water + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Accelerate the water of heavier material to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it close to 1200 degrees + Accelerating the hot water of heavy material vertically downward Various energy conservation cycle coalescence engines that drive a heating mass turbine and a heating calorie turbine for power generation as a contact, and rotate and tilt a solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collect water in a straight line + Increase the temperature of the warming-increasing ball lift device (2F) and use it + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling of heavier water with compressed air Various energy conservation cycle coalescence engines that drive a heating mass turbine and a heating calorie turbine for power generation as a contact, and rotate and tilt a solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Using the long lens to increase the width Compressing the heated air to approach 1200 degrees + Accelerating the hot water of heavy substances to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with a 25 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 26 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar power generation heating turbines with twice the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation as accelerated rolling contact with heavy material water with compressed air + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage gravity solar thermal heating turbine with three times the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine for power generation using accelerated rolling contact with heavier material water with compressed air + Various energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravitational solar power generation heating turbine with 4 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates the hot water of heavy material to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compress air and bring it close to 1200 degrees + Drive hot mass turbine and heating calorie turbine of power generation using hot water of heavy substance as vertical rolling contact in the vertical direction + Combined with various energy conservation cycle to rotate solar thermal suspension bridge on land organ.   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate rolling contact with heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Combine various energy conservation cycles to rotate the solar thermal suspension bridge on land organ.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating high-temperature water of heavy substances to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of hot and cold heat + long lens makes sunlight straight into heat absorbing material + Collecting water in a warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heating mass for power generation by accelerating rolling contact with water vertically downward Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating the water of heavy substances vertically downward to drive the heating mass turbine and heating calorie turbine for generation + Various energy conservation by tilting and rotating the solar thermal increase suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating the water of a heavier substance vertically downward to drive a heating mass turbine and a heating calorie turbine for power generation + Various energy for tilting and rotating a solar heating suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating and approached 1200 degrees + Heavy material water accelerated and contacted vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compress air with increased width heating and bring it closer to 1200 degrees + Drive water heating mass turbine and heating calorie turbine by accelerating rolling contact with heavier material water vertically downward + Various types of tilting rotation of solar thermal increase suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water to drive a heated mass turbine and heated calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate a solar thermal increase suspension bridge on land .   Turbine blade cross-section (4X) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming and increasing ball lift device (2F) to save and use water + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Accelerating the water of heavy substances to heat the power generation Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4X) gravity solar power heating turbines with 21 times multiple stages, a structure and method for accelerating specific critical materials vertically downwards + making hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air to approach 1200 degrees + Accelerate the hot water of heavier material vertically Then, it drives the heating mass turbine and heating calorie turbine for power generation. + Various energy storage cycle coalescence engine that tilts and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing ball lifting device (2F) + Using the long lens to increase the width Compress the heated air to approach 1200 degrees + Accelerate rolling contact with heavy material water with compressed air As an energy-saving cycle coalescence engine that drives the heating mass turbine and heating calorie turbine for power generation, and + rotates the solar thermal suspension suspension on the land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collect water in a straight line + Increase the temperature of the warming-increasing ball lift device (2F) and use it + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling of heavier water with compressed air Various energy conservation cycle coalescence engines that drive a heating mass turbine and a heating calorie turbine for power generation as a contact, and rotate and tilt a solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Using the long lens to increase the width Compressing the heated air to approach 1200 degrees + Accelerating the hot water of heavy substances to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 26 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar power generation heating turbines with twice the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation as accelerated rolling contact with heavy material water with compressed air + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage gravity solar thermal heating turbine with three times the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine for power generation using accelerated rolling contact with heavier material water with compressed air + Various energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravitational solar power generation heating turbine with 4 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates the hot water of heavy material to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates hot water of heavier material vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Combines various energy conservation cycles that rotate the solar thermal suspension suspension bridge on land organ.   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate rolling contact with heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Combine various energy conservation cycles to rotate the solar thermal suspension bridge on land organ.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating high-temperature water of heavy substances to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Keeping water in the warming and increasing ball rising device (2F) + Preserving and using the water + Compressing the heated air to increase the width of the long lens to approach 1200 degrees + Accelerating hot water vertically downward and heating mass turbine and A combined energy storage cycle engine that drives a heated calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross-section (4X) 14-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting the water in a warm-heat-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens and compress the heated air closer to 1200 degrees + Heat the water with compressed air acceleration to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating the water of heavy substances vertically downward to drive the heating mass turbine and heating calorie turbine for generation + Various energy conservation by tilting and rotating the solar thermal increase suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width to approach 1200 degrees + Accelerating water of heavier material vertically downward to drive heated mass turbine and heated heat turbine + Various energy conservation cycles to tilt solar rotating suspension bridge on land Combined organization.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating and approached 1200 degrees + Heavy material water accelerated and contacted vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compress air with increased width heating and bring it closer to 1200 degrees + Drive water heating mass turbine and heating calorie turbine by accelerating rolling contact with heavier material water vertically downward + Various types of tilting rotation of solar thermal increase suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to approach 1200 degrees + Accelerating high-temperature water of heavy materials to drive a heated mass turbine and heated calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate a solar-heated suspension bridge on land organ.   Turbine blade cross-section (4X) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere rising device (2F) to save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate the hot water of heavy material vertically downward Combines various energy storage cycle engines that drive the heating mass turbine and heating calorie turbine for power generation and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) gravity solar power heating turbines with 21 times multiple stages, a structure and method for accelerating specific critical materials vertically downwards + making hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using a warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate water of heavier material with compressed air Combines various energy storage cycle engines that drive the heating mass turbine and heating calorie turbine for power generation and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing ball lifting device (2F) + Using the long lens to increase the width Compress the heated air to approach 1200 degrees + Accelerate rolling contact with heavy material water with compressed air As an energy-saving cycle coalescence engine that drives the heating mass turbine and heating calorie turbine for power generation, and + rotates the solar thermal suspension suspension on the land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collect water in a straight line + Increase the temperature of the warming-increasing ball lift device (2F) and use it + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling of heavier water with compressed air Various energy conservation cycle coalescence engines that drive a heating mass turbine and a heating calorie turbine for power generation as a contact, and rotate and tilt a solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Using the long lens to increase the width Compressing the heated air to approach 1200 degrees + Accelerating the hot water of heavy substances to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with a 25 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 26 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar power generation heating turbines with twice the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation as accelerated rolling contact with heavy material water with compressed air + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage gravity solar thermal heating turbine with three times the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine for power generation using accelerated rolling contact with heavier material water with compressed air + Various energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravitational solar power generation heating turbine with 4 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates the hot water of heavy material to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavy matter hot water vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates the solar thermal suspension bridge on land .   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates the solar thermal expansion suspension bridge on land .   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate rolling contact with heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Combine various energy conservation cycles to rotate the solar thermal suspension bridge on land organ.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water to drive power generation heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land.   Turbine blade cross section (4X) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Keeping water in the warming and increasing ball rising device (2F) + Preserving and using the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and heating mass turbine and heating A combined energy storage cycle engine that drives a calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting water in a warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4X) 14-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting the water in a warm-heat-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens and compress the heated air closer to 1200 degrees + Heat the water with compressed air acceleration to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressed air with increased width to approach 1200 degrees + Accelerate heavy water vertically downward to drive a heated mass turbine and heated calorie turbine + Combined various energy conservation cycles to tilt and rotate a solar increased suspension bridge on land organ.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width to approach 1200 degrees + Accelerating water of heavier material vertically downward to drive heated mass turbine and heated heat turbine + Various energy conservation cycles to tilt solar rotating suspension bridge on land Combined organization.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating and approached 1200 degrees + Heavy material water accelerated and contacted vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving a heated mass turbine and a heated heat turbine with accelerated rolling contact with heavier material water + Various energy conservation cycles to tilt and rotate a solar-powered suspension bridge on land Combined organization.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water with compressed air to drive a heating mass turbine and heating calorie turbine for power generation + Preserving various types of energy storage by tilting and rotating a solar thermal increase suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4X) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the water + Compressing the air to increase the width of the long lens + approaching 1200 degrees + Accelerating the water of heavy substances with compressed air Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) gravity solar power heating turbines with 21 times multiple stages, a structure and method for accelerating specific critical materials vertically downwards + making hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using a warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate water of heavier material with compressed air Combines various energy storage cycle engines that drive the heating mass turbine and heating calorie turbine for power generation and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing ball lifting device (2F) + Using the long lens to increase the width Compress the heated air to approach 1200 degrees + Accelerate rolling contact with heavy material water with compressed air As an energy-saving cycle coalescence engine that drives the heating mass turbine and heating calorie turbine for power generation, and + rotates the solar thermal suspension suspension on the land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collect water in a straight line + Increase the temperature of the warming-increasing ball lift device (2F) and use it + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling of heavier water with compressed air Various energy conservation cycle coalescence engines that drive a heating mass turbine and a heating calorie turbine for power generation as a contact, and rotate and tilt a solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the water + Compressing the air to increase the width of the long lens + approaching 1200 degrees + Accelerating the water of heavy substances with compressed air Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with a 25 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 26 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar power generation heating turbines with twice the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation as accelerated rolling contact with heavy material water with compressed air + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage gravity solar thermal heating turbine with three times the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine for power generation using accelerated rolling contact with heavier material water with compressed air + Various energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multi-stage gravitational solar power heating turbine with a 4 times turbine blade cross section (4X) + full electric electrification house priming + heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates the solar thermal expansion suspension bridge on land .   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate rolling contact with heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Combine various energy conservation cycles to rotate the solar thermal suspension bridge on land organ.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of hot and cold heat + long lens makes sunlight straight into heat absorbing material + Collecting water in a warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heating mass for power generation by accelerating rolling contact with water vertically downward Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting water in a warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4X) 14-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting the water in a warm-heat-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens and compress the heated air closer to 1200 degrees + Heat the water with compressed air acceleration to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressed air with increased width to approach 1200 degrees + Accelerate heavy water vertically downward to drive a heated mass turbine and heated calorie turbine + Combined various energy conservation cycles to tilt and rotate a solar increased suspension bridge on land organ.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width to approach 1200 degrees + Accelerating water of heavier material vertically downward to drive heated mass turbine and heated heat turbine + Various energy conservation cycles to tilt solar rotating suspension bridge on land Combined organization.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width to bring it closer to 1200 degrees + Drive heavy mass water with accelerated rolling contact to drive a heated mass turbine and heated calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate a solar thermal increase suspension bridge on land organ.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased heating and approached 1200 degrees + Drive hot mass turbine and heating calorie turbine for power generation by using hot water of heavier material as vertical rolling contact in vertical downward direction + Solar thermal increase suspension bridge tilted on land Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to approach 1200 degrees + Accelerating high-temperature water of heavy materials to drive a heated mass turbine and heated calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate a solar-heated suspension bridge on land organ.   Turbine blade cross-section (4X) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the water + Compressing the air to increase the width of the long lens + approaching 1200 degrees + Accelerating the water of heavy substances with compressed air Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) gravity solar power heating turbines with 21 times multiple stages, a structure and method for accelerating specific critical materials vertically downwards + making hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using a warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate water of heavier material with compressed air Combines various energy storage cycle engines that drive the heating mass turbine and heating calorie turbine for power generation and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing ball lifting device (2F) + Using the long lens to increase the width Compress the heated air to approach 1200 degrees + Accelerate rolling contact with heavy material water with compressed air As an energy-saving cycle coalescence engine that drives the heating mass turbine and heating calorie turbine for power generation, and + rotates the solar thermal suspension suspension on the land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collect water in a straight line + Increase the temperature of the warming-increasing ball lift device (2F) and use it + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling of heavier water with compressed air Various energy conservation cycle coalescence engines that drive a heating mass turbine and a heating calorie turbine for power generation as a contact, and rotate and tilt a solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Using the long lens to increase the width Compressing the heated air to approach 1200 degrees + Accelerating the hot water of heavy substances to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with a 25 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 26 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar power generation heating turbines with twice the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation as accelerated rolling contact with heavy material water with compressed air + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by providing a multi-stage gravity solar thermal heating turbine with three times the turbine blade cross-section (4X) + full electrification house priming + heat retention increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and the heating calorie turbine of the power generation using accelerated hot water of a heavier material vertically downward contact + Various energy conservation cycle coalescing engines that rotate and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravitational solar power generation heating turbine with 4 times the turbine blade cross section (4X) + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavy material high-temperature water to drive the heating mass turbine and heating calorie turbine of power generation + Solar thermal increase suspension bridge on land Various energy conservation cycle coalescing engine that is tilted and rotated by   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates the solar thermal expansion suspension bridge on land .   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compresses air and brings it closer to 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the heavier material water vertically downward + Combined with various energy conservation cycles that tilt and rotate the solar thermal suspension bridge on land organ.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating high-temperature water of heavy substances to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the hot water of heavy substances vertically downward Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material Gather in a straight line + Use the warming-increasing sphere lift device (2F) to store and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate the heavier material water vertically downward Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use water retention and riser device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate rolling contact with heavy substance water vertically downward Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with heavier material water vertically downward As an energy-saving cycle coalescence engine that drives the heating mass turbine and heating calorie turbine for power generation, and + rotates the solar thermal suspension suspension on the land.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water of heavy substances and heating mass for power generation Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressed air with increased width to approach 1200 degrees + Accelerate heavy water vertically downward to drive a heated mass turbine and heated calorie turbine + Combined various energy conservation cycles to tilt and rotate a solar increased suspension bridge on land organ.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased heating to approach 1200 degrees + Accelerate water of heavier material to drive heating mass turbine and heating calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate solar thermal suspension suspension on land organ.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 ° C + Driving heavy mass hot water vertically and vertically in contact with the heated mass turbine and heating calorie turbine for power generation + Various types of tilting rotation of the solar thermal suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Drives heated mass turbine and heated heat turbine for power generation using accelerated rolling contact with water of heavier material + Various types of slant rotation of solar thermal increased suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to approach 1200 degrees + Accelerating high-temperature water of heavy materials to drive a heated mass turbine and heated calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate a solar-heated suspension bridge on land organ.   Turbine blade cross-section (4X) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the water + Compressing the air to increase the width of the long lens + approaching 1200 degrees + Accelerating the water of heavy substances with compressed air Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation, and rotate and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) gravity solar power heating turbines with 21 times multiple stages, a structure and method for accelerating specific critical materials vertically downwards + making hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using a warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate water of heavier material with compressed air Combines various energy storage cycle engines that drive the heating mass turbine and heating calorie turbine for power generation and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing ball lifting device (2F) + Using the long lens to increase the width Compress the heated air to approach 1200 degrees + Accelerate rolling contact with heavy material water with compressed air As an energy-saving cycle coalescence engine that drives the heating mass turbine and heating calorie turbine for power generation, and + rotates the solar thermal suspension suspension on the land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collect water in a straight line + Increase the temperature of the warming-increasing ball lift device (2F) and use it + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling of heavier water with compressed air Various energy conservation cycle coalescence engines that drive a heating mass turbine and a heating calorie turbine for power generation as a contact, and rotate and tilt a solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Using the long lens to increase the width Compressing the heated air to approach 1200 degrees + Accelerating the hot water of heavy substances to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with a 25 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 26 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravity solar power generation heating turbine with double turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine for power generation using accelerated hot water of heavy material vertically downward contact + Various energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage gravity solar thermal heating turbine with three times the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine for power generation using accelerated rolling contact with heavier material water with compressed air + Various energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravitational solar power generation heating turbine with 4 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates the hot water of heavy material to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates the solar thermal expansion suspension bridge on land .   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compresses air and brings it close to 1200 degrees + Drives heated mass turbine and heating calorie turbine for power generation by accelerating and rolling heavy material water vertically downward + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compress air and bring it closer to 1200 ° C + Drive hot mass turbine and heating calorie turbine for power generation by accelerating rolling contact with heavier material hot water vertically downward + Various energy conservation cycles to tilt and rotate solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating high-temperature water of heavy substances to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Keeping water in the warming and increasing ball rising device (2F) + Preserving and using the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and heating mass turbine and heating A combined energy storage cycle engine that drives a calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4X) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Keeping water in the warming and increasing ball rising device (2F) + Preserving and using the water + Compressing the heated air to increase the width of the long lens to approach 1200 degrees + Accelerating hot water vertically downward and heating mass turbine and A combined energy storage cycle engine that drives a heated calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of hot and cold heat + long lens makes sunlight straight into heat absorbing material + Collecting water in a warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heating mass for power generation by accelerating rolling contact with water vertically downward Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting water in a warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water to drive a heated mass turbine and heated calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate a solar thermal increase suspension bridge on land .   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compresses air with increased width and approaches 1200 degrees + Accelerates hot water of heavier material vertically downwards to drive the heating mass turbine and heating calorie turbine of power generation + Various types of tilting rotation of the solar heating suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Drives heated mass turbine and heated heat turbine for power generation using accelerated rolling contact with water of heavier material + Various types of slant rotation of solar thermal increased suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to approach 1200 degrees + Accelerating high-temperature water of heavy materials to drive a heated mass turbine and heated calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate a solar-heated suspension bridge on land organ.   Turbine blade cross-section (4X) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the water + Compressing the air to increase the width of the long lens + approaching 1200 degrees + Accelerating the water of heavy substances with compressed air Various energy conservation cycle coalescence engines that drive the heating mass turbine and heating calorie turbine for power generation and rotate the suspended suspension bridge on the land.   Turbine blade cross-section (4X) gravity solar power heating turbines with 21 times multiple stages, a structure and method for accelerating specific critical materials vertically downwards + making hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using a warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate water of heavier material with compressed air Combines various energy storage cycle engines that drive the heating mass turbine and heating calorie turbine for power generation and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing ball lifting device (2F) + Using the long lens to increase the width Compress the heated air to approach 1200 degrees + Accelerate rolling contact with heavy material water with compressed air As an energy-saving cycle coalescence engine that drives the heating mass turbine and heating calorie turbine for power generation, and + rotates the solar thermal suspension suspension on the land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collect water in a straight line + Increase the temperature of the warming-increasing ball lift device (2F) and use it + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling of heavier water with compressed air Various energy conservation cycle coalescence engines that drive a heating mass turbine and a heating calorie turbine for power generation as a contact, and rotate and tilt a solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Using the long lens to increase the width Compressing the heated air to approach 1200 degrees + Accelerating the hot water of heavy substances to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with a 25 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   With a structure and method of accelerating water vertically downward in the heat insulation turbine with a turbine blade cross section (4X) in multiple stages with a 26-fold gravity solar power generation heating turbine + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot water of a heavier material vertically downwards to drive the heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar power generation heating turbines with twice the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation as accelerated rolling contact with heavy material water with compressed air + Solar heat Various energy conservation cycle coalescing engines that tilt and rotate the augmented suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage gravity solar thermal heating turbine with three times the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine for power generation using accelerated rolling contact with heavier material water with compressed air + Various energy conservation cycle coalescing engine that tilts and rotates the solar thermal suspension bridge on land.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravitational solar power generation heating turbine with 4 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates the hot water of heavy material to drive the heating mass turbine and heating calorie turbine of the power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavier material water vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates the solar thermal expansion suspension bridge on land .   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compress air and bring it close to 1200 degrees + Drive hot mass turbine and heating calorie turbine of power generation using hot water of heavy substance as vertical rolling contact in the vertical direction + Combined with various energy conservation cycle to rotate solar thermal suspension bridge on land organ.   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compress air and bring it closer to 1200 ° C + Drive hot mass turbine and heating calorie turbine for power generation by accelerating rolling contact with heavier material hot water vertically downward + Various energy conservation cycles to tilt and rotate solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavy steel molybdenum balls together with impact reduction means (2G) to drive the heating mass turbine and heating calorie turbine for power generation Energy conservation cycle coalescence engine.   Configuration and method of accelerating 10 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping the water in the warming and increasing ball lift device (2F) for storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Accelerating the heavy substance water vertically downward to heat the mass of power generation Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with solar heat on the land.   Configuration and method of accelerating 11 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase the temperature of the warming-increasing sphere lift device (2F) to save and use + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material water vertically downward to heat the mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Configuration and method of accelerating the turbine blade cross section (4X) 12 times gravity solar thermal water vertically downward + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping the water in the warming and increasing ball lift device (2F) for storage + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the heavy substance water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Configuration and method of accelerating 13 times gravity solar thermal power generation vertically downward with turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase the temperature of the warming-increasing ball rising device (2F) to save and use + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate the rolling of the heavier substance water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Configuration and method of accelerating 14 times gravity solar thermal power generation vertically down the turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water with warming and increasing ball lift device (2F) + Enhance long lens width by compressing heated air to approach 1200 degrees + Accelerate hot water of heavy material to generate power heating mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Structure and method of accelerating 15 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water using the warming and increasing ball lift device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Accelerate the hot water of heavy material vertically downward to heat the power generation Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Configuration and method of accelerating 16 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase the temperature of the warming-increasing ball riser (2F) and use it + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate hot water of heavier material vertically downward Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Configuration and method for accelerating 17 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping and storing water using the warming and increasing ball lifting device (2F) + Compressing the heated air of the long lens to bring it closer to 1200 degrees + Heating the power generation by accelerating rolling contact with the heavy material water with compressed air Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Configuration and method of accelerating 18 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase the temperature of the warming-increasing ball lift device (2F) to save and use + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Generate high-temperature water of heavier material as an accelerated rolling contact vertically downward Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 19-times gravity solar thermal power generation configuration and method + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water with warming and increasing ball lift device (2F) + Enhance long lens width by compressing heated air to approach 1200 degrees + Accelerate hot water of heavy material to generate power heating mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   A structure and method for accelerating high-temperature water vertically downwards by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross section (4X) of 20 times. Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating high-temperature water vertically downward by installing gravity turbines with 21 times the turbine blade cross-section (4X) + vertical storage + battery-powered various ship priming + warming and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar power heating turbines with 22 times the turbine blade cross-section (4X) + storage battery-powered various ships primed + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by installing 23-fold gravity solar power generation heating turbines with a turbine blade cross section (4X) in a multi-stage + storage battery-powered various ship priming + heat-retaining and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4X) with 24 times gravity solar power heating turbines in multiple stages to accelerate high temperature water vertically downward + storage battery driven various ships prime + heat retention increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4X) of 25 times + accelerating the storage battery drive with various warming sphere lifting devices (2F) Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity turbines with a turbine blade cross-section (4X) of 26 times + accelerating high-temperature water vertically + storage battery-powered vessels Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross-section (4X) + accelerating the storage battery drive + warming and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating high-temperature water vertically downward by providing three stages of gravity solar thermal heating turbines with three times the turbine blade cross section (4X) + storage battery-powered various ship primes + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 4 times the turbine blade cross section (4X) + storage battery-powered various ship primes + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Accelerates water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power heating turbines with 5 times the turbine blade cross section (4X) + accelerating water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of 6-times gravity solar power generation heating turbines with a turbine blade cross section (4X) + accelerating storage battery-driven vessels Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 7 times the turbine blade cross section (4X) + storage battery-powered various ship primes + thermal insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates hot water vertically downwards to drive the heating mass turbine and heating calorie turbine + Solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power heating turbines with 8 times the turbine blade cross section (4X) + accelerating water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Tilting the solar heating suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating the water vertically by installing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4X) of 10 times + accelerating the water vertically + water storage battery-powered various ships primed + warming and increasing ball rising device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with 11 times the turbine blade cross section (4X) + accelerating the water vertically + storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 12 times the turbine blade cross section (4X) + storage battery-powered various ship priming + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downwards by providing multiple stages of gravity solar thermal heating turbines with 13 times the turbine blade cross-section (4X) + accelerating the storage battery drive + warming and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar power heating turbines with 14 times the turbine blade cross section (4X) + storage battery-powered various ships primed + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation using water as the accelerated rolling contact vertically downward + The solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross section (4X) of 15 times + accelerating storage battery-powered vessels + warming-increasing sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by providing 16 stages of turbine blade cross-sections (4X) in multiple stages of gravity solar power heating turbines + storage battery-powered various ship primes + heat-retaining and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by installing multiple stages of gravity turbines with 17 times the turbine blade cross section (4X) + accelerating the storage battery drive + a warming and increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downward by providing gravity turbines with 18 times the turbine blade cross section (4X) in the vertical direction + storage battery-powered various ships priming + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4X) 19-times gravity solar power heating turbines are provided in multiple stages to accelerate hot water vertically downwards + storage battery driven various ships primed + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar thermal suspension suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   A structure and method for accelerating high-temperature water vertically downwards by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross section (4X) of 20 times. Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating high-temperature water vertically downward by installing gravity turbines with 21 times the turbine blade cross-section (4X) + vertical storage + battery-powered various ship priming + warming and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar power heating turbines with 22 times the turbine blade cross-section (4X) + storage battery-powered various ships primed + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating high-temperature water vertically downward by installing 23-fold gravity solar power generation heating turbines with a turbine blade cross section (4X) in a multi-stage + storage battery-powered various ship priming + heat-retaining and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   Turbine blade cross section (4X) with 24 times gravity solar power heating turbines in multiple stages to accelerate high temperature water vertically downward + storage battery driven various ships prime + heat retention increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and approaches 1200 degrees + Heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Increase solar heat Various energy conservation cycle coalescing engines that tilt and rotate suspension bridges on land.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4X) of 25 times + accelerating the storage battery drive with various warming sphere lifting devices (2F) The energy storage cycle coalescing engine that uses the water to store and save + the longer lens width increases and compresses the heated air to bring it closer to 1200 degrees + collects and uses the combined air temperature and cold energy.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity turbines with a turbine blade cross-section (4X) of 26 times + accelerating high-temperature water vertically + storage battery-powered vessels The energy storage cycle coalescing engine that uses the water to store and save + the longer lens width increases and compresses the heated air to bring it closer to 1200 degrees + collects and uses the combined air temperature and cold energy.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross-section (4X) + accelerating the storage battery drive + warming and increasing ball lifting device (2F) The energy storage cycle coalescing engine that uses the water to store and save + the longer lens width increases and compresses the heated air to bring it closer to 1200 degrees + collects and uses the combined air temperature and cold energy.   A structure and method for accelerating high-temperature water vertically downward by providing three stages of gravity solar thermal heating turbines with three times the turbine blade cross section (4X) + storage battery-powered various ship primes + heat retention increasing ball lift device (2F) The energy storage cycle coalescing engine that uses the water to store and save + the longer lens width increases and compresses the heated air to bring it closer to 1200 degrees + collects and uses the combined air temperature and cold energy.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross section (4X) + accelerating the water vertically + water storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Various energy storage cycle coalescing engines as a power generation method that recovers and uses combined air temperature and cold energy.   Turbine blade cross-section (4X) 5 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle combined engine that accelerates water vertically and drives a heating mass turbine and a heating calorie turbine.   Turbine blade cross-section (4X) 6 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engines that accelerate hot water vertically downward to drive a heating mass turbine and a heating calorie turbine, and rotate and rotate a solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Water Accelerating rolling contact vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 8 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate water vertically downwards + make use of hot and cold heat + long lens makes sunlight straight into heat absorbing material + Increment of the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + High temperature Various energy conservation cycle coalescence engine that tilts and rotates the suspension bridge with solar heat to drive the heating mass turbine and heating calorie turbine for power generation using accelerated rolling contact with water vertically downward.   Turbine blade cross section (4X) gravity solar power heating turbine with 9 times of the structure and method of accelerating water vertically downward + make hot and cold use prime + long lens makes sunlight straight into heat absorbing material + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Water Compressed air acceleration to heat the air to drive the heating mass turbine and heating calorie turbine of power generation + various energy conservation cycle coalescence engine that tilts and rotates the solar thermal suspension suspension on land.   Turbine blade cross section (4X) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Keeping water in the warming and increasing ball rising device (2F) + Preserving and using the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and heating mass turbine and heating A combined energy storage cycle engine that drives a calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water with compressed air to drive a heating mass turbine and heating calorie turbine for power generation + Preserving various types of energy storage by tilting and rotating a solar thermal increase suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compresses air with increased width and approaches 1200 degrees + Accelerates hot water of heavier material vertically downwards to drive the heating mass turbine and heating calorie turbine of power generation + Various types of tilting rotation of the solar heating suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Drives heated mass turbine and heated heat turbine for power generation using accelerated rolling contact with water of heavier material + Various types of slant rotation of solar thermal increased suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to approach 1200 degrees + Accelerating high-temperature water of heavy materials to drive a heated mass turbine and heated calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate a solar-heated suspension bridge on land organ.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   A structure and method for accelerating hot water vertically downward by providing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4X) of 25 times + making the entire electrified house primed + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Rotate the solar increase suspension bridge on land Various energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) 26 times gravity solar power heating turbines are provided in multiple stages to accelerate the hot water vertically downward + make the whole electrified house prime + warming and increasing ball lift device (2F) Uses ascending storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar heating suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating hot water vertically downward by installing multiple gravity solar thermal heating turbines with twice the turbine blade cross-section (4X) + making the whole electrified house primed + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Drive the heating mass turbine and the heating calorie turbine of the power generation by accelerating and rolling the water vertically downward + The solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross-section (4X) + making the whole electrified house primed + warming and increasing ball lifting device (2F) Preservation use + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar heat increase suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross-section (4X) 4 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downwards + full electrified house prime + warming and increasing ball lift device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavy matter hot water vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates the solar thermal suspension bridge on land .   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavier material water vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates the solar thermal expansion suspension bridge on land .   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compresses air and brings it close to 1200 degrees + Drives heated mass turbine and heating calorie turbine for power generation by accelerating and rolling heavy material water vertically downward + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compresses air and brings it closer to 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the heavier material water vertically downward + Combined with various energy conservation cycles that tilt and rotate the solar thermal suspension bridge on land organ.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water to drive power generation heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water with compressed air to drive a heating mass turbine and heating calorie turbine for power generation + Preserving various types of energy storage by tilting and rotating a solar thermal increase suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compresses air with increased width to approach 1200 degrees + Accelerates heavier material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy to tilt and rotate solar thermal suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Drives heated mass turbine and heated heat turbine for power generation using accelerated rolling contact with water of heavier material + Various types of slant rotation of solar thermal increased suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to approach 1200 degrees + Accelerating high-temperature water of heavy materials to drive a heated mass turbine and heated calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate a solar-heated suspension bridge on land organ.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   A structure and method for accelerating hot water vertically downward by providing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4X) of 25 times + making the entire electrified house primed + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Rotate the solar increase suspension bridge on land Various energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) 26 times gravity solar power heating turbines are provided in multiple stages to accelerate the hot water vertically downward + make the whole electrified house prime + warming and increasing ball lift device (2F) Uses ascending storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar heating suspension bridge on land Various energy conservation cycle coalescing engines.   Structure and method of accelerating water vertically by installing multiple gravity solar thermal heating turbines with double turbine blade cross section (4X) + full electrified house prime + warming increase ball lift device (2F) to raise water Preservation use + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + Tilting the solar increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravitational solar power heating turbines with three times the turbine blade cross-section (4X) + full electrification of the house + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross-section (4X) 4 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downwards + full electrified house prime + warming and increasing ball lift device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating the water of heavy substances vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that rotate and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavier material water vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates the solar thermal expansion suspension bridge on land .   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compresses air and brings it close to 1200 degrees + Drives heated mass turbine and heating calorie turbine for power generation by accelerating and rolling heavy material water vertically downward + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compresses air and brings it closer to 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the heavier material water vertically downward + Combined with various energy conservation cycles that tilt and rotate the solar thermal suspension bridge on land organ.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water to drive power generation heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water with compressed air to drive a heating mass turbine and heating calorie turbine for power generation + Preserving various types of energy storage by tilting and rotating a solar thermal increase suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compresses air with increased width to approach 1200 degrees + Accelerates heavier material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy to tilt and rotate solar thermal suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Drives heated mass turbine and heated heat turbine for power generation using accelerated rolling contact with water of heavier material + Various types of slant rotation of solar thermal increased suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to approach 1200 degrees + Accelerating high-temperature water of heavy materials to drive a heated mass turbine and heated calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate a solar-heated suspension bridge on land organ.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   A structure and method for accelerating hot water vertically downward by providing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4X) of 25 times + making the entire electrified house primed + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Rotate the solar increase suspension bridge on land Various energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) 26 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downwards + full electrification house prime + warming increase ball lift device (2F) to raise water Use for storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Rotate the solar increase suspension bridge on land Various energy conservation cycle coalescence engine.   A structure and method for accelerating hot water vertically downward by installing multiple gravity solar thermal heating turbines with twice the turbine blade cross-section (4X) + making the whole electrified house primed + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Drive the heating mass turbine and the heating calorie turbine of the power generation by accelerating and rolling the water vertically downward + The solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravitational solar power heating turbines with three times the turbine blade cross-section (4X) + full electrification of the house + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross section (4X) + accelerating the water vertically + full electrification of the house + rising water with a warming and increasing ball lifting device (2F) Use for storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Solar thermal increase suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating the water of heavy substances vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that rotate and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air approaches 1200 degrees + Accelerates heavier material water vertically downward to drive heated mass turbines and heated calorie turbines + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compresses air and brings it close to 1200 degrees + Drives heated mass turbine and heating calorie turbine for power generation by accelerating and rolling heavy material water vertically downward + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compresses air and brings it closer to 1200 degrees + Drives the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the heavier material water vertically downward + Combined with various energy conservation cycles that tilt and rotate the solar thermal suspension bridge on land organ.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating high-temperature water of heavy substances to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water with compressed air to drive a heating mass turbine and heating calorie turbine for power generation + Preserving various types of energy storage by tilting and rotating a solar thermal increase suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compresses air with increased width to approach 1200 degrees + Accelerates heavier material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy to tilt and rotate solar thermal suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Drives heated mass turbine and heated heat turbine for power generation using accelerated rolling contact with water of heavier material + Various types of slant rotation of solar thermal increased suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to approach 1200 degrees + Accelerating high-temperature water of heavy materials to drive a heated mass turbine and heated calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate a solar-heated suspension bridge on land organ.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4X) 25 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downwards + full electrified house prime + warming increase ball lift device (2F) to raise water Use for storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Various types of tilting rotation of the solar thermal increase suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) 26 times gravity solar power heating turbines are provided in multiple stages to accelerate the hot water vertically downward + make the whole electrified house prime + warming and increasing ball lift device (2F) Uses ascending storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar heating suspension bridge on land Various energy conservation cycle coalescing engines.   A structure and method for accelerating hot water vertically downward by installing multiple gravity solar thermal heating turbines with twice the turbine blade cross-section (4X) + making the whole electrified house primed + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Drive the heating mass turbine and the heating calorie turbine of the power generation by accelerating and rolling the water vertically downward + The solar heating suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross-section (4X) + making the whole electrified house primed + warming and increasing ball lifting device (2F) Preservation use + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar heat increase suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross section (4X) + accelerating the water vertically + full electrification of the house + rising water with a warming and increasing ball lifting device (2F) Use for storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Solar thermal increase suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water vertically downward to drive heated mass turbine and heated calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air approaches 1200 degrees + Accelerates heavier material water vertically downward to drive heated mass turbines and heated calorie turbines + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compresses air and brings it close to 1200 degrees + Drives heated mass turbine and heating calorie turbine for power generation by accelerating and rolling heavy material water vertically downward + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving a heated mass turbine and a heated calorie turbine for power generation using accelerated heavier water contact + A variety of energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water with compressed air to drive a heating mass turbine and heating calorie turbine for power generation + Preserving various types of energy storage by tilting and rotating a solar thermal increase suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compresses air with increased width to approach 1200 degrees + Accelerates heavier material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy to tilt and rotate solar thermal suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Drives heated mass turbine and heated heat turbine for power generation using accelerated rolling contact with water of heavier material + Various types of slant rotation of solar thermal increased suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water with compressed air to drive a heating mass turbine and heating calorie turbine for power generation + Preserving various types of energy storage by tilting and rotating a solar thermal increase suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 24 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting the water in a warm-heat-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens and compress the heated air closer to 1200 degrees + Heat the water with compressed air acceleration to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   A structure and method for accelerating hot water vertically downward by providing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4X) of 25 times + making the entire electrified house primed + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Rotate the solar increase suspension bridge on land Various energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) 26 times gravity solar power heating turbines are provided in multiple stages to accelerate the hot water vertically downward + make the whole electrified house prime + warming and increasing ball lift device (2F) Uses ascending storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar heating suspension bridge on land Various energy conservation cycle coalescing engines.   Structure and method of accelerating water vertically by installing multiple gravity solar thermal heating turbines with double turbine blade cross section (4X) + full electrified house prime + warming increase ball lift device (2F) to raise water Preservation use + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + Tilting the solar increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross-section (4X) + making the whole electrified house primed + warming and increasing ball lifting device (2F) Preservation use + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar heat increase suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross section (4X) + accelerating the water vertically + full electrification of the house + rising water with a warming and increasing ball lifting device (2F) Use for storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Solar thermal increase suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water vertically downward to drive heated mass turbine and heated calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air approaches 1200 degrees + Accelerates heavier material water vertically downward to drive heated mass turbines and heated calorie turbines + Various energy storage cycle coalescing engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compressed air approaches 1200 degrees + Drives heated mass turbines and heated calorie turbines with heavy material water as accelerated rolling contact + Various energy storage cycle coalescing engines that tilt and rotate solar thermal suspension bridges on land.   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compress air and bring it closer to 1200 ° C + Drive hot mass turbine and heating calorie turbine for power generation by accelerating rolling contact with heavier material hot water vertically downward + Various energy conservation cycles to tilt and rotate solar thermal suspension bridge on land Combined organization.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating high-temperature water of heavy substances to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water with compressed air to drive a heating mass turbine and heating calorie turbine for power generation + Preserving various types of energy storage by tilting and rotating a solar thermal increase suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compresses air with increased width to approach 1200 degrees + Accelerates heavier material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy to tilt and rotate solar thermal suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased heating and approached 1200 degrees + Drive hot mass turbine and heating calorie turbine for power generation by using hot water of heavier material as vertical rolling contact in vertical downward direction + Solar thermal increase suspension bridge tilted on land Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to approach 1200 degrees + Accelerating high-temperature water of heavy materials to drive a heated mass turbine and heated calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate a solar-heated suspension bridge on land organ.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting water in a warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   A structure and method for accelerating hot water vertically downward by providing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4X) of 25 times + making the entire electrified house primed + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Rotate the solar increase suspension bridge on land Various energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) 26 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downwards + full electrification house prime + warming increase ball lift device (2F) to raise water Use for storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Rotate the solar increase suspension bridge on land Various energy conservation cycle coalescence engine.   Structure and method of accelerating water vertically by installing multiple gravity solar thermal heating turbines with double turbine blade cross section (4X) + full electrified house prime + warming increase ball lift device (2F) to raise water Preservation use + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + Tilting the solar increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross-section (4X) + making the whole electrified house primed + warming and increasing ball lifting device (2F) Preservation use + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar heat increase suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross section (4X) + accelerating the water vertically + full electrification of the house + rising water with a warming and increasing ball lifting device (2F) Use for storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Solar thermal increase suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water vertically downward to drive heated mass turbine and heated calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating water of heavier material to drive heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compress air and bring it close to 1200 degrees + Drive hot mass turbine and heating calorie turbine of power generation using hot water of heavy substance as vertical rolling contact in the vertical direction + Combined with various energy conservation cycle to rotate solar thermal suspension bridge on land organ.   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate rolling contact with heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Combine various energy conservation cycles to rotate the solar thermal suspension bridge on land organ.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating high-temperature water of heavy substances to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water with compressed air to drive a heating mass turbine and heating calorie turbine for power generation + Preserving various types of energy storage by tilting and rotating a solar thermal increase suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compresses air with increased width to approach 1200 degrees + Accelerates heavier material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy to tilt and rotate solar thermal suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 ° C + Driving heavy mass hot water vertically and vertically in contact with the heated mass turbine and heating calorie turbine for power generation + Various types of tilting rotation of the solar thermal suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Drives heated mass turbine and heated heat turbine for power generation using accelerated rolling contact with water of heavier material + Various types of slant rotation of solar thermal increased suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to approach 1200 degrees + Accelerating high-temperature water of heavy materials to drive a heated mass turbine and heated calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate a solar-heated suspension bridge on land organ.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting water in a warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heating mass for power generation by accelerating rolling contact with water vertically downward Combined engine for various energy conservation cycles that drives the turbine and the heating calorie turbine and rotates the suspension bridge with increased solar heat on the land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross-section (4X) 25 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downwards + full electrified house prime + warming increase ball lift device (2F) to raise water Use for storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Various types of tilting rotation of the solar thermal increase suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) 26 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downwards + full electrification house prime + warming increase ball lift device (2F) to raise water Use for storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Rotate the solar increase suspension bridge on land Various energy conservation cycle coalescence engine.   Structure and method of accelerating water vertically by installing multiple gravity solar thermal heating turbines with double turbine blade cross section (4X) + full electrified house prime + warming increase ball lift device (2F) to raise water Preservation use + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + Tilting the solar increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross-section (4X) + making the whole electrified house primed + warming and increasing ball lifting device (2F) Preservation use + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + Solar heat increase suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross-section (4X) 4 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downwards + full electrified house prime + warming and increasing ball lift device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water to drive power generation heating mass turbine and heating calorie turbine + Various energy conservation cycle coalescence engine that tilts and rotates solar thermal suspension bridge on land.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates hot water of heavier material vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Combines various energy conservation cycles that rotate the solar thermal suspension suspension bridge on land organ.   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate rolling contact with heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Combine various energy conservation cycles to rotate the solar thermal suspension bridge on land organ.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating high-temperature water of heavy substances to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating hot water vertically downward and heating mass turbine And a combined energy storage cycle engine that drives the heating calorie turbine and inclines and rotates the solar thermal suspension bridge on land.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use the water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Combined various energy storage cycle engines that drive the heating mass turbine and the heating calorie turbine of No.4 + and rotate the solar thermal suspension suspension bridge on land.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water with compressed air to drive a heating mass turbine and heating calorie turbine for power generation + Preserving various types of energy storage by tilting and rotating a solar thermal increase suspension bridge on land Cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compresses air with increased width and approaches 1200 degrees + Accelerates hot water of heavier material vertically downwards to drive the heating mass turbine and heating calorie turbine of power generation + Various types of tilting rotation of the solar heating suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy to tilt and rotate the solar increased suspension bridge on land Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Drives heated mass turbine and heated heat turbine for power generation using accelerated rolling contact with water of heavier material + Various types of slant rotation of solar thermal increased suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to approach 1200 degrees + Accelerating high-temperature water of heavy materials to drive a heated mass turbine and heated calorie turbine for power generation + Combined various energy conservation cycles to tilt and rotate a solar-heated suspension bridge on land organ.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere raising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and approaching 1200 degrees + Accelerating the water vertically downward and heating the mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross-section (4X) gravity solar power heating turbines with 21 times multiple stages and a structure and method for accelerating water vertically downwards + making hot and cold use prime + straightening sunlight into heat absorbing material with long lens + Keeping water in the warming and increasing ball rising device (2F) + Preserving and using the water + Compressing the heated air to increase the width of the long lens to approach 1200 degrees + Accelerating hot water vertically downward and heating mass turbine and A combined energy storage cycle engine that drives a heating calorie turbine and rotates a suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the power generation by accelerating and rolling the water vertically downward Various energy conservation cycle coalescence engines that drive mass turbines and heating calorie turbines + rotate solar thermal suspension bridges on land.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward to generate electricity Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   Turbine blade cross section (4X) 24 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting water in a warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate power Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine and rotates the suspension bridge with increased solar heat on land.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with a turbine blade cross-section (4X) of 25 times + making the whole house electrified + warming and increasing ball rising device (2F) Use for storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate the water vertically downward to drive the heating mass turbine and heating calorie turbine + Various types of tilting rotation of the solar thermal increase suspension bridge on land Energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) 26 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downwards + full electrification house prime + warming increase ball lift device (2F) to raise water Use for storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate hot water vertically downward to drive the heating mass turbine and heating calorie turbine + Rotate the solar increase suspension bridge on land Various energy conservation cycle coalescence engine.   Structure and method of accelerating water vertically by installing multiple gravity solar thermal heating turbines with double turbine blade cross section (4X) + full electrified house prime + warming increase ball lift device (2F) to raise water Preservation use + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation using water as an accelerated rolling contact vertically downward + Tilting the solar increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravitational solar power heating turbines with three times the turbine blade cross-section (4X) + full electrification of the house + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Drive the heating mass turbine and heating calorie turbine of the power generation by accelerating and rolling the hot water vertically downward + The solar thermal suspension suspension bridge on land Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross-section (4X) 4 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downwards + full electrified house prime + warming and increasing ball lift device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine for power generation + Solar thermal increase suspension bridge Various energy conservation cycle coalescing engines that tilt and rotate on land.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavy matter hot water vertically downward to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates the solar thermal suspension bridge on land .   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engine that tilts and rotates the solar thermal expansion suspension bridge on land .   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating rolling contact with heavy material water with compressed air to drive heating mass turbine and heating calorie turbine for power generation + Various energy conservation cycle coalescence engines that tilt and rotate solar thermal suspension bridge on land .   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate rolling contact with heavier material water with compressed air to drive the heating mass turbine and heating calorie turbine of power generation + Combine various energy conservation cycles to rotate the solar thermal suspension bridge on land organ.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it close to 1200 degrees + Accelerating high-temperature water of heavy substances to drive the heating mass turbine and heating calorie turbine of power generation + Various energy conservation cycle coalescence engines that tilt and rotate the solar thermal suspension bridge on land.   Turbine blade cross section (4X) 10 times gravity solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + heat retention increase ball riser (2F) water storage and use + long lens width increase heating Compressed air and approaching 1200 degrees + High temperature water vertically driven heating mass turbine and heating calorie turbine with increased acceleration power generation + Various energy conservation cycle coalescing engines that rotate solar heater on the water surface.   Turbine blade cross section (4X) 11 times gravity solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Increase power generation amount + Heat retention increase ball lift device (2F) Use water to save and use + Increase long lens width heating Compress air to approach 1200 degrees + Accelerate heavier material water with compressed air to drive heating mass turbine and heating calorie turbine with increased power generation + Save energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross-section (4X) 12 times gravity solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + heat retention increase ball riser (2F) water storage and use + long lens width increase heating Compress air and bring it closer to 1200 degrees + Accelerate rolling contact with heavy material water with compressed air to drive heating mass turbine and heating calorie turbine with increased power generation + Save energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 13 times gravity solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Increase power generation amount + Heat retention increase ball lift device (2F) Use water to save and use + Increase long lens width heating Compress air to approach 1200 degrees + Accelerate rolling contact with heavier material water with compressed air to drive heating mass turbine and heating calorie turbine with increased power generation + Various energy to tilt and rotate solar heater on water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 14 times gravity solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Increase power generation amount + Heat retention increase ball riser (2F) Save and use water + Increase long lens width heating Compresses air and approaches 1200 degrees + Accelerates high-temperature water of heavy substances to drive heating mass turbine and heating calorie turbine with increased power generation + Various energy storage cycle coalescence engine that rotates solar heater on the water surface .   Turbine blade cross-section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 16 times gravity solar thermal power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Various energy conservation cycle coalescing engines aiming at 1000 times power generation by installing two types of vertical all blade gravity solar thermal turbines in multiple stages.   Turbine blade cross-section (4X) 17 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 18 times gravity gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 19 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a mass heating turbine and a heating calorie turbine that increase the amount of energy + a combined energy storage cycle engine that inclines and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of hot and cold heat + long lens makes sunlight straight into heat absorbing material + Collect water in a warming-increasing sphere lift device (2F) Use water to store and save + Compress long-length lens heating air to approach 1200 degrees + Heat up specific critical substances vertically downward to accelerate power generation A combined energy storage cycle engine that drives a mass turbine and a heating calorie turbine and rotates a solar heater on the water surface.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting the water in a warm + Incubating and storing water using the warming-increasing sphere lifting device (2F) + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 degrees The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 24 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collect water in a warm-heat increasing sphere rising device (2F) to use and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with a turbine blade cross section (4X) of 25 times + water storage battery-powered various ships priming + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   A structure and method of accelerating water vertically by installing multiple stages of gravity turbines with 26 times the turbine blade cross section (4X) + accelerating the water vertically + water storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross-section (4X) + accelerating the storage battery drive + warming and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing three stages of gravity solar thermal heating turbines with three times the turbine blade cross section (4X) + storage battery-powered various ship primes + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 4 times the turbine blade cross section (4X) + storage battery-powered various ship primes + heat retention increasing ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 5 times the turbine blade cross section (4X) + accelerating the storage battery-driven vessels Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of 6-times gravity solar power generation heating turbines with a turbine blade cross section (4X) + accelerating storage battery-driven vessels Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 7 times the turbine blade cross section (4X) + storage battery-powered various ship primes + thermal insulation increase ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating high-temperature water vertically by installing multiple stages of gravity solar thermal heating turbines with 8 times the turbine blade cross section (4X) + storage battery-powered various ships priming + heat retention increasing ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross-section (4X) of 9 times + accelerating the storage battery drive with various warming sphere lifting devices (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method of accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross-section (4X) of 10 times + accelerating the storage battery drive with various warming sphere lifting devices (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   With a structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar power generation heating turbines with 11 times the turbine blade cross section (4X) + storage battery-powered various ship priming Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 12 times the turbine blade cross section (4X) + storage battery-powered various ship priming + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating high-temperature water vertically downwards by providing multiple stages of gravity solar thermal heating turbines with 13 times the turbine blade cross-section (4X) + accelerating the storage battery drive + warming and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar power heating turbines with 14 times the turbine blade cross section (4X) + storage battery-powered various ships primed + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross section (4X) of 15 times + accelerating storage battery-powered vessels + warming-increasing sphere lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing 16 stages of turbine blade cross-sections (4X) in multiple stages of gravity solar power heating turbines + storage battery-powered various ship primes + heat-retaining and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating high-temperature water vertically downward by installing multiple stages of gravity turbines with 17 times the turbine blade cross section (4X) + accelerating the storage battery drive + a warming and increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing gravity turbines with 18 times the turbine blade cross section (4X) in the vertical direction + storage battery-powered various ships priming + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 19-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating high-temperature water vertically downwards by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross section (4X) of 20 times. Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating high-temperature water vertically downward by installing gravity turbines with 21 times the turbine blade cross-section (4X) + vertical storage + battery-powered various ship priming + warming and increasing ball lifting device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross-section (4X) 22-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross-section (4X) 23 times gravity solar power heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with a turbine blade cross section (4X) of 25 times + water storage battery-powered various ships priming + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity turbines with a turbine blade cross-section (4X) of 26 times + accelerating high-temperature water vertically + storage battery-powered vessels Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross-section (4X) + accelerating the storage battery drive + warming and increasing ball lifting device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing three stages of gravity solar thermal heating turbines with three times the turbine blade cross section (4X) + storage battery-powered various ship primes + heat retention increasing ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 4 times the turbine blade cross section (4X) + storage battery-powered various ship primes + heat retention increasing ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 5 times the turbine blade cross section (4X) + accelerating the storage battery-driven vessels Uses water for preserving + Increases the width of the long lens Compresses the heated air and brings it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming at the same amount of water maximum power generation provided in multiple stages + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of 6-times gravity solar power generation heating turbines with a turbine blade cross section (4X) + accelerating storage battery-driven vessels Uses water for preserving + Increases the width of the long lens Compresses the heated air and brings it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming at the same amount of water maximum power generation provided in multiple stages + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 7 times the turbine blade cross section (4X) + storage battery-powered various ship primes + thermal insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and brings it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming at the same amount of water maximum power generation provided in multiple stages + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating high-temperature water vertically by installing multiple stages of gravity solar thermal heating turbines with 8 times the turbine blade cross section (4X) + storage battery-powered various ships priming + heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and brings it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming at the same amount of water maximum power generation provided in multiple stages + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating high-temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross-section (4X) of 9 times + accelerating the storage battery drive with various warming sphere lifting devices (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air and brings it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming at the same amount of water maximum power generation provided in multiple stages + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engine that drives a heating mass turbine and a heating heat amount turbine that increase the amount of accelerated power generation vertically downward with a specific critical substance + tilts and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engine that accelerates heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation and rotate solar heater on the water surface.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy storage cycle coalescence engines that rotate the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically and rotating the solar heater on the water surface.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engines that drive hot mass turbines and heating calorie turbines with increased power generation by accelerating rolling contact with hot water vertically downward and rotating solar heaters on the surface of water.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy storage cycle coalescence engine that heats air by accelerating compressed air to drive heating mass turbine and heating calorie turbine with increased power generation and inclines and rotates solar heater on water surface.   Turbine blade cross-section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 16 times gravity solar thermal power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 17 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 18-times gravity solar power generation Heating turbines are arranged in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting the water in a warm + Incubating and storing water using the warming-increasing sphere lifting device (2F) + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 degrees The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 19 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 20 times gravity solar power generation generating heating turbine blade method + power increasing sphere (2E) is accelerated with small diameter + long lens width increasing heating air is compressed 1200 + Energy conservation cycle coalescence engine that drives a heating mass turbine and heating calorie turbine that increase acceleration power generation vertically downward + hot water is tilted and rotated on the water surface.   Turbine blade cross section (4X) 21 times gravity solar power generation generating heating turbine blade method + power increasing sphere (2E) is accelerated with a small diameter + long lens width increasing heating air compressed 1200 + The energy storage cycle coalescence engine that accelerates the water of heavier material vertically downward to drive the heating mass turbine and the heating calorie turbine with increased power generation + Inclined rotation of the solar heater on the water surface.   Turbine blade cross section (4X) 22 times gravity solar power generation generation heating equipment blade method + power increasing sphere (2E) is accelerated with a small diameter + long lens width increasing heating air compressed 1200 + Energy storage cycle coalescing engine that drives heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with heavy substance water vertically downward + rotating solar heater on water surface.   Turbine blade cross section (4X) 23 times gravity solar power generation output heating equipment method to make all turbine blades + power increase sphere (2E) is accelerated with small diameter + long lens width increase heating air compressed 1200 The energy storage cycle coalescence engine that drives the heated mass turbine and the heated calorie turbine with increased power generation by accelerating rolling contact with heavier material water vertically downward and bringing the solar heater on the water surface.   Turbine blade cross-section (4X) 24 times gravity solar power generation generating heating turbine blade method + power increase sphere (2E) is accelerated with a small diameter + long lens width increased heating air compressed 1200 + Energy storage cycle coalescence engine that accelerates the heat of heavy substances and drives heated mass turbines and heating heat quantity turbines to increase power generation + Inclined rotation of solar heater on water surface.   A structure and method for accelerating high temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with a turbine blade cross section (4X) of 25x + Width of the long lens + Acceleration turbine drive with a small diameter of the output increasing sphere (2E) Compress the increased heating air and bring it closer to 1200 degrees + Drive the specific mass of the material vertically downward to accelerate the heating mass turbine and heating calorie turbine to increase the power generation amount + Various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   A structure and method for accelerating high temperature water vertically downward by providing multiple stages of gravity turbines with 26 times the turbine blade cross section (4X) + Accelerating turbine drive with a small output increasing sphere (2E) + Width of long lens Compressing increased heating air and approaching 1200 degrees + Accelerating heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Various energy for tilting and rotating solar heater on water surface Conservation cycle coalescence organization.   A structure and method for accelerating high temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4X) + Accelerating turbine driving with a small output sphere (2E) diameter + Long lens width Compressing the heated air and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine to increase power generation by accelerating and rolling the water vertically downward + Saving various energy by tilting and rotating the solar heater on the water surface Cycle coalescence engine.   A structure and method for accelerating high temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with three times the turbine blade cross section (4X) + Acceleration turbine drive with a small diameter of the output increasing sphere (2E) + Width of long lens Compress the increased heating air and bring it close to 1200 degrees + Drive hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various energy to tilt and rotate solar heater on water surface Conservation cycle coalescence organization.   A structure and method for accelerating high temperature water vertically downward by providing multiple stages of gravity solar thermal heating turbines with 4 times the turbine blade cross section (4X) + Accelerating turbine drive with a small output sphere (2E) diameter + Long lens width Increase heating air is compressed and approaches 1200 degrees + water is heated by compressed air acceleration to drive heating mass turbine and heating calorie turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   A structure and method for accelerating high-temperature water vertically by installing multiple stages of gravity solar thermal heating turbines with 5 times the turbine blade cross section (4X) + full-scale electrified house prime + warming and increasing ball lift device (2F) Use ascending storage + Increase the width of the long lens Compress the heating air and bring it closer to 1200 degrees + Drive the specific mass to the vertically downward acceleration heating power turbine and heating heat turbine to increase power generation + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) 6 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downwards + full electrified house prime + warming and increasing ball rising device (2F) Uses ascending storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates high temperature water vertically downward to drive the heating mass turbine and heating calorie turbine + Inclined rotation of the solar heating suspension bridge on land Various energy conservation cycle coalescing engines.   Turbine blade cross section (4X) 7 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + full electrified house prime + warming and increasing ball lift device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Drive the heating mass turbine and heating calorie turbine with increased power generation by accelerating and rolling the water vertically downward contact + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 8 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + full electrified house prime + warming and increasing ball lift device (2F) Uses ascending storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Drives heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with high-temperature water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross-section (4X) 9 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make the whole electrified house prime + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation 10 times + accelerating various battery-powered automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressed air and approaching 1200 degrees + High temperature water vertically driven heating mass turbine and heating calorie turbine with increased acceleration power generation + Various energy conservation cycle coalescing engines that rotate solar heater on the water surface.   Turbine blade cross-section (4X) 11 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to use water storage and storage + long lens width increasing heating Compress air to approach 1200 degrees + Accelerate heavier material water with compressed air to drive heating mass turbine and heating calorie turbine with increased power generation + Save energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) structure and method of 12 times gravity solar power generation + storage battery driven various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + long lens width increasing heating Compress air and bring it close to 1200 degrees + Heavier high-temperature water accelerated and contacted vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Various energy to tilt and rotate solar heater on water surface Conservation cycle coalescence organization.   Turbine blade cross-section (4X) structure and method of 13 times gravity solar power generation + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air to approach 1200 degrees + Accelerate rolling contact with heavier material water with compressed air to drive heating mass turbine and heating calorie turbine with increased power generation + Various energy to tilt and rotate solar heater on water surface Conservation cycle coalescence organization.   Turbine blade cross-section (4X) 14 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates high-temperature water of heavy substances to drive heating mass turbine and heating calorie turbine with increased power generation + Various energy storage cycle coalescence engine that rotates solar heater on the water surface .   Turbine blade cross-section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 16 times gravity solar thermal power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 17 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of hot and cold heat + long lens makes sunlight straight into heat absorbing material + Collect water in a warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross-section (4X) 18-times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water balls vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 19 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 20 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to bring it closer to 1200 degrees + Water vertically driven to accelerate the heating mass turbine and heating heat amount turbine to increase the amount of power generation + Combined with various energy storage cycles to rotate and rotate the solar heater on the water surface organ.   Turbine blade cross section (4X) 21 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing ball lift device (2F) to use and save water + long lens Compresses air with increased width and brings it closer to 1200 degrees + accelerates heavier material water vertically downward to drive heating mass turbine and heating heat turbine with increased power generation + Inclined rotation of solar heater on water surface Various energy conservation cycle coalescing engines.   Turbine blade cross section (4X) 22 times gravity solar power generation output Heating turbine blade to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased heating and approached 1200 degrees + Heavier material water accelerated and contacted vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Solar heating heater tilted on water surface Various energy conservation cycle coalescing engines.   Turbine blade cross section (4X) 23 times gravity solar power generation power generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Heavier material water is accelerated and contacted vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + Tilting the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) 24 times gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Accelerating heavy material water to drive a heated mass turbine and heated heat turbine with increased power generation + Preserving various energy by tilting and rotating a solar heater on the water surface Cycle coalescence engine.   Turbine blade cross section (4X) Gravity solar power heating turbine with multiple stages 25 times, structure and method to accelerate specific critical materials vertically downward + heat and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming and increasing sphere lift device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Increase the amount of accelerated power generation vertically below the hot water Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air to approach 1200 degrees + Accelerate the hot water of heavier material vertically downward Then, the heating mass turbine and the heating calorie turbine with increased power generation are driven + various energy storage cycle coalescing engines that rotate the solar heater incline on the water surface.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravity solar power generation heating turbines with twice the turbine blade cross-section (4X) + making hot and cold use prime + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravitational solar power heating turbines with a triple turbine blade cross section (4X). + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   A structure and method for accelerating high-temperature water vertically downward by using multiple stages of gravity solar thermal heating turbines with 4 times the turbine blade cross section (4X) + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   A structure and method for accelerating high-temperature water vertically by installing multiple stages of gravity solar thermal heating turbines with 5 times the turbine blade cross section (4X) + full-scale electrified house prime + warming and increasing ball lift device (2F) Use ascending storage + Increase the width of the long lens Compress the heating air and bring it closer to 1200 degrees + Drive the specific mass to the vertically downward acceleration heating power turbine and heating heat turbine to increase power generation + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) 6 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downwards + full electrified house prime + warming and increasing ball rising device (2F) Uses ascending storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier material vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) 7 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + full electrified house prime + warming and increasing ball lift device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Drive the heating mass turbine and heating calorie turbine with increased power generation by accelerating and rolling the water vertically downward contact + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 8 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + full electrified house prime + warming and increasing ball lift device (2F) Uses ascending storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Drives heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with high-temperature water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross-section (4X) 9 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make the whole electrified house prime + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation 10 times + accelerating various battery-powered automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressed air and approaching 1200 degrees + High temperature water vertically driven heating mass turbine and heating calorie turbine with increased acceleration power generation + Various energy conservation cycle coalescing engines that rotate solar heater on the water surface.   Turbine blade cross-section (4X) 11 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to use water storage and storage + long lens width increasing heating Compress air and approach 1200 degrees + Accelerate hot water of heavier material vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Various energy to tilt and rotate solar heater on water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) structure and method of 12 times gravity solar power generation + storage battery driven various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate rolling contact with heavy material water with compressed air to drive heating mass turbine and heating calorie turbine with increased power generation + Save energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross-section (4X) structure and method of 13 times gravity solar power generation + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air to approach 1200 degrees + Accelerate rolling contact with heavier material water with compressed air to drive heating mass turbine and heating calorie turbine with increased power generation + Various energy to tilt and rotate solar heater on water surface Conservation cycle coalescence organization.   Turbine blade cross-section (4X) 14 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + long lens width increasing heating Compresses air and approaches 1200 degrees + Accelerates high-temperature water of heavy substances to drive heating mass turbine and heating calorie turbine with increased power generation + Various energy storage cycle coalescence engine that rotates solar heater on the water surface .   Turbine blade cross-section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross-section (4X) 16 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collect heat in a warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power generation The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 17 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 18 times gravity gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 19-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + make hot and cold use prime + long lens to straighten sunlight into heat absorbing material + Collect water in a warm-heat increasing sphere rising device (2F) to use and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 20 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to bring it closer to 1200 degrees + Water vertically driven to accelerate the heating mass turbine and heating heat amount turbine to increase the amount of power generation + Combined with various energy storage cycles to rotate and rotate the solar heater on the water surface organ.   Turbine blade cross section (4X) 21 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing ball lift device (2F) to use and save water + long lens Compresses air with increased width and brings it closer to 1200 degrees + accelerates heavier material water vertically downward to drive heating mass turbine and heating heat turbine with increased power generation + Inclined rotation of solar heater on water surface Various energy conservation cycle coalescing engines.   Turbine blade cross section (4X) 22 times gravity solar power generation output Heating turbine blade to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased heating and approached 1200 degrees + Heavier material water accelerated and contacted vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Solar heating heater tilted on water surface Various energy conservation cycle coalescing engines.   Turbine blade cross section (4X) 23 times gravity solar power generation power generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Heavier material water is accelerated and contacted vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + Tilting the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) 24 times gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compresses air with increased width and approaches 1200 degrees + accelerates high-temperature water of heavy substances to drive heating mass turbine and heating heat turbine with increased power generation + various energy to tilt and rotate solar heater on water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) gravity solar thermal heating turbines with 25 times the structure and method of accelerating high temperature water vertically downward + make use of hot and cold energy + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 26 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravity solar power generation heating turbines with twice the turbine blade cross-section (4X) + making hot and cold use prime + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravitational solar power heating turbines with a triple turbine blade cross section (4X). + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   A structure and method for accelerating high-temperature water vertically downward by using multiple stages of gravity solar thermal heating turbines with 4 times the turbine blade cross section (4X) + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   A structure and method for accelerating high-temperature water vertically by installing multiple stages of gravity solar thermal heating turbines with 5 times the turbine blade cross section (4X) + full-scale electrified house prime + warming and increasing ball lift device (2F) Use ascending storage + Increase the width of the long lens Compress the heating air and bring it closer to 1200 degrees + Drive the specific mass to the vertically downward acceleration heating power turbine and heating heat turbine to increase power generation + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) 6 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downwards + full electrified house prime + warming and increasing ball rising device (2F) Uses ascending storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier material vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) 7 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + full electrified house prime + warming and increasing ball lift device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Drive the heating mass turbine and heating calorie turbine with increased power generation by accelerating and rolling the water vertically downward contact + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 8 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + full electrified house prime + warming and increasing ball lift device (2F) Uses ascending storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Drives heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with high-temperature water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross-section (4X) 9 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make the whole electrified house prime + warming and increasing ball rising device (2F) Use ascending storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation 10 times + accelerating various battery-powered automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressed air and approaching 1200 degrees + High temperature water vertically driven heating mass turbine and heating calorie turbine with increased acceleration power generation + Various energy conservation cycle coalescing engines that rotate solar heater on the water surface.   Turbine blade cross-section (4X) 11 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to use water storage and storage + long lens width increasing heating Compress air to approach 1200 degrees + Accelerate heavier material water with compressed air to drive heating mass turbine and heating calorie turbine with increased power generation + Save energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) structure and method of 12 times gravity solar power generation + storage battery driven various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate rolling contact with heavy material water with compressed air to drive heating mass turbine and heating calorie turbine with increased power generation + Save energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross-section (4X) structure and method of 13 times gravity solar power generation + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air to approach 1200 degrees + Accelerate rolling contact with heavier material water with compressed air to drive heating mass turbine and heating calorie turbine with increased power generation + Various energy to tilt and rotate solar heater on water surface Conservation cycle coalescence organization.   Turbine blade cross-section (4X) 14 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + long lens width increasing heating Compressed air and approaching 1200 degrees + Accelerating heavy material water to drive heating mass turbine and heating calorie turbine with increased power generation + Various energy storage cycle coalescing engines that rotate solar heater on the water surface.   Turbine blade cross section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collect water in a warming-increasing sphere lift device (2F) Use water to store and save + Compress long-length lens heating air to approach 1200 degrees + Heat up specific critical substances vertically downward to accelerate power generation A combined energy storage cycle engine that drives a mass turbine and a heating calorie turbine and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 16 times gravity solar thermal power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 17 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 18-times gravity solar power generation Heating turbines are arranged in multiple stages to accelerate water vertically downward + make use of heat and cold + straighten sunlight to heat absorber with long lens + Collecting the water in a warm + Incubating and storing water using the warming-increasing sphere lifting device (2F) + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 degrees The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 19-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + make hot and cold use prime + long lens to straighten sunlight into heat absorbing material + Collect water in a warm-heat increasing sphere rising device (2F) to use and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 20 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width to bring it closer to 1200 degrees + Water vertically driven to accelerate the heating mass turbine and heating heat amount turbine to increase the amount of power generation + Combined with various energy storage cycles to rotate and rotate the solar heater on the water surface organ.   Turbine blade cross section (4X) 21 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing ball lift device (2F) to use and save water + long lens Compresses air with increased width and brings it closer to 1200 degrees + accelerates heavier material water vertically downward to drive heating mass turbine and heating heat turbine with increased power generation + Inclined rotation of solar heater on water surface Various energy conservation cycle coalescing engines.   Turbine blade cross section (4X) 22 times gravity solar power generation output Heating turbine blade to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased heating and approached 1200 degrees + Heavier material water accelerated and contacted vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Solar heating heater tilted on water surface Various energy conservation cycle coalescing engines.   Turbine blade cross section (4X) 23 times gravity solar power generation power generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving heavier mass water and heated heat turbine with accelerated rolling contact with heavier material water + Various types of rotating the solar heater on the water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 24 times gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) Gravity solar power heating turbine with multiple stages 25 times, structure and method to accelerate specific critical materials vertically downward + heat and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with multi-stages are arranged in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity as a contact Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   A structure and method of accelerating specific critical substances vertically downwards by using multiple stages of gravity solar thermal heating turbines with 6 times the turbine blade cross section (4X) + making use of heat and cold + long-lens heat absorption material for sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 8 times gravity solar power generation heating turbine + making the entire electrified house prime + heat retaining increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multistage turbine blade cross section (4X) with 9 times gravity solar power generation heating turbine + making the whole electrified house prime + thermal insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating the water vertically downward in the heat insulation turbine with a turbine blade cross-section (4X) in multiple stages with a gravitational solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   With a structure and method of accelerating water vertically downward in the heat retaining turbine with a multi-stage gravity solar thermal heating turbine with 11 times the turbine blade cross section (4X) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a 12-fold gravity solar power generation heating turbine with a turbine blade cross section (4X) + a fully electrified residential prime Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross-section (4X) structure and method of 13 times gravity solar power generation + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross-section (4X) 14 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross-section (4X) 15 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + increase long lens width heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross-section (4X) 16 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing sphere lifting device (2F) to store and use water + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) 17 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing ball lift device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross section (4X) 18 times gravity gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross-section (4X) 19 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 23 times gravity solar power generation power generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 24 times gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 25x gravity solar power output generation Heating turbine blade equipment + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) Double gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 3 times gravity solar power generation generation heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use and store water + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   A structure and method of accelerating specific critical substances vertically and vertically by using multiple stages of gravity solar power generation heating turbines with 4 times the turbine blade cross section (4X) + heat and cold energy priming + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with multi-stages are arranged in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   A structure and method of accelerating specific critical substances vertically downwards by using multiple stages of gravity solar thermal heating turbines with 6 times the turbine blade cross section (4X) + making use of heat and cold + long-lens heat absorption material for sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity as a contact Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) 8 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multistage turbine blade cross section (4X) with 9 times gravity solar power generation heating turbine + making the whole electrified house prime + thermal insulation increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating the water vertically downward in the heat insulation turbine with a turbine blade cross-section (4X) in multiple stages with a gravitational solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   With a structure and method of accelerating water vertically downward in the heat retaining turbine with a multi-stage gravity solar thermal heating turbine with 11 times the turbine blade cross section (4X) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a 12-fold gravity solar power generation heating turbine with a turbine blade cross section (4X) + a fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a 13-fold gravity solar power generation heating turbine with a turbine blade cross-section (4X) + full electric electrification house priming Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross-section (4X) 14 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross-section (4X) 15 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + increase long lens width heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross-section (4X) 16 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing sphere lifting device (2F) to store and use water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) 17 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing ball lift device (2F) to use and store water + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) 18 times gravity solar thermal power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross-section (4X) 19 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 24 times gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 25x gravity solar power output generation Heating turbine blade equipment + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) Double gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 3 times gravity solar power generation generation heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 4 times gravity solar power generation output heating equipment method to make all turbine blades + factory electrification primed + warming and increasing ball lift device (2F) to use and save water + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) gravity solar power heating turbines with multi-stages are arranged in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   A structure and method of accelerating specific critical substances vertically downwards by using multiple stages of gravity solar thermal heating turbines with 6 times the turbine blade cross section (4X) + making use of heat and cold + long-lens heat absorption material for sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 8 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating the water vertically downward in the heat insulation turbine with a turbine blade cross-section (4X) in multiple stages with a gravitational solar power generation heating turbine + Fully electrified residential prime Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   With a structure and method of accelerating water vertically downward in the heat retaining turbine with a multi-stage gravity solar thermal heating turbine with 11 times the turbine blade cross section (4X) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a 12-fold gravity solar power generation heating turbine with a turbine blade cross section (4X) + a fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a 13-fold gravity solar power generation heating turbine with a turbine blade cross-section (4X) + full electric electrification house priming + heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 14 times gravity solar power generation heating turbine + making the whole electrified house prime Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross-section (4X) 15 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + increase long lens width heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross-section (4X) 16 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing sphere lifting device (2F) to store and use water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) 17 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing ball lift device (2F) to use and store water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) 18 times gravity solar thermal power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) 19 times gravity solar thermal power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + increased long lens width heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 25x gravity solar power output generation Heating turbine blade equipment + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) Double gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 3 times gravity solar power generation generation heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use and store water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 4 times gravity solar power generation output heating equipment method to make all turbine blades + factory electrification primed + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 5x gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming increase sphere lift device (2F) to use water storage and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   A structure and method of accelerating specific critical substances vertically downwards by using multiple stages of gravity solar thermal heating turbines with 6 times the turbine blade cross section (4X) + making use of heat and cold + long-lens heat absorption material for sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) 8 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   With a structure and method of accelerating water vertically downward in the heat retaining turbine with a multi-stage gravity solar thermal heating turbine with 11 times the turbine blade cross section (4X) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a 12-fold gravity solar power generation heating turbine with a turbine blade cross section (4X) + a fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a 13-fold gravity solar power generation heating turbine with a turbine blade cross-section (4X) + full electric electrification house priming + heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with a 14 times gravity solar power generation heating turbine + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   With a structure and method of accelerating water vertically downward in the heat retaining turbine with a turbine blade cross-section (4X) in multiple stages with a 15-fold gravity solar power generation heating turbine + Fully electrified residential prime Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross-section (4X) 16 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing sphere lifting device (2F) to store and use water + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 17 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing ball lift device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) 18 times gravity solar thermal power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) 19 times gravity solar thermal power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + increased long lens width heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross-section (4X) 20 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + increased long lens width heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) gravity solar thermal heating turbines with 25 times the structure and method of accelerating high temperature water vertically downward + make use of hot and cold energy + solar light as heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) Double gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 3 times gravity solar power generation generation heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use and store water + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 4 times gravity solar power generation output heating equipment method to make all turbine blades + factory electrification primed + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 5x gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming increase sphere lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 6 times gravity Solar power generation output Heating turbine blade to make all turbine blades + Factory electrification primed + Insulate and use water riser (2F) + Use long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 8 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a 12-fold gravity solar power generation heating turbine with a turbine blade cross section (4X) + a fully electrified residential prime Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a 13-fold gravity solar power generation heating turbine with a turbine blade cross-section (4X) + full electric electrification house priming Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with a 14 times gravity solar power generation heating turbine + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   With a structure and method of accelerating water vertically downward in the heat retaining turbine with a turbine blade cross-section (4X) in multiple stages with a 15-fold gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 16 times gravity solar power generation heating turbine + full electric electrified house prime + heat retention increasing ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 17 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing ball lift device (2F) to use and store water + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 18 times gravity solar thermal power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) 19 times gravity solar thermal power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + increased long lens width heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross-section (4X) 20 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + increased long lens width heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) structure and method of gravity solar power generation of 21 times + accelerating various battery-powered vehicles + warming and increasing sphere lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Structure and method of accelerating 22 times gravity solar power water vertically downward on the turbine blade cross section (4X) + + Using the warming and increasing ball rising device (2F) to save and use the water + Compressing the heated air with a longer lens width Then, the energy-saving cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine whose acceleration power generation amount is increased vertically downward + the solar heater is inclined and rotated on the water surface.   Configuration and method of accelerating 23 times gravity solar thermal power water vertically down the turbine blade cross section (4X) + + Using the warming and increasing sphere lifting device (2F) to store and use the water + Increase the width of the long lens Compress the heated air Then, the energy storage cycle coalescence engine that accelerates a heavier substance vertically downward and drives a heating mass turbine and a heating calorie turbine with increased power generation and tilts and rotates a solar heater on the water surface.   Structure and method of accelerating 24 times gravity solar thermal power generation vertically down the turbine blade cross section (4X) + + Using the warming and increasing ball rising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens Then, the energy storage cycle coalescence engine that drives the heated mass turbine and the heated calorie turbine that increase the amount of power generation as the water is accelerated and contacted vertically downward to bring the water close to 1200 degrees, and the solar heater is inclined and rotated on the water surface.   Configuration and method of accelerating 25 times lower gravitational solar power water vertically down turbine blade cross section (4X) + + Using water retention and increasing ball lift device (2F) for storage and storage + Long lens width increase Heating compressed air The energy storage cycle coalescing engine that drives the heated mass turbine and the heated calorie turbine with increased power generation by accelerating and rolling the high temperature water vertically downward contact + rotating the solar heater on the water surface.   Structure and method of accelerating the gravity solar thermal power water twice vertically on the turbine blade cross section (4X) + + Using the warming and increasing ball rising device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens The energy storage cycle coalescence engine that heats the air with compressed air acceleration and drives the heated mass turbine and the heating calorie turbine with increased power generation and rotates the solar heater on the water surface.   A structure and method for accelerating the vertical gravitational solar power water 3 times lower than the turbine blade cross section (4X) + + Using the warming-increasing sphere lifting device (2F) to store and use the water + Increase the width of the long lens Compress the heated air Then, the energy-saving cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine whose acceleration power generation amount is increased vertically downward + the solar heater is inclined and rotated on the water surface.   Configuration and method of accelerating the vertical gravitational solar power water 4 times lower than the turbine blade cross section (4X) + + Using the warming and increasing ball rising device (2F) to save and use the water + Increase the width of the long lens Compress the heated air Then, the energy storage cycle coalescence engine that accelerates a heavier substance vertically downward and drives a heating mass turbine and a heating calorie turbine with increased power generation and tilts and rotates a solar heater on the water surface.   Configuration and method of accelerating 5 times gravity solar thermal power water vertically downward on turbine blade cross section (4X) + + Using water retention and increasing ball lift device (2F) to save and use + Enhance long lens width and heat heated air Then, the energy storage cycle coalescence engine that drives the heated mass turbine and the heated calorie turbine that increase the amount of power generation as the water is accelerated and contacted vertically downward to bring the water close to 1200 degrees, and the solar heater is inclined and rotated on the water surface.   Structure and method of accelerating 6 times gravity solar thermal power generation vertically down the turbine blade cross section (4X) + + Using the warming and increasing sphere lifting device (2F) to save and use the water + Compressing the heated air with a longer lens width The energy storage cycle coalescing engine that drives the heated mass turbine and the heated calorie turbine with increased power generation by accelerating and rolling the high temperature water vertically downward contact + rotating the solar heater on the water surface.   Configuration and method of accelerating the gravity solar thermal power water 7 times lower in the turbine blade cross section (4X) + + Using the warming and increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air The energy storage cycle coalescence engine that heats the air with compressed air acceleration and drives the heated mass turbine and the heating calorie turbine with increased power generation and rotates the solar heater on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power heating turbines with 8 times the turbine blade cross section (4X) + accelerating water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating the water vertically by installing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4X) of 10 times + accelerating the water vertically + water storage battery-powered various ships primed + warming and increasing ball rising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with 11 times the turbine blade cross section (4X) + accelerating the water vertically + storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross-section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross-section (4X) 15-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 16 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 17 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 18 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 19-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with a turbine blade cross section (4X) 20 times in the vertical direction + storage battery-powered various ship primes + water with a warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross-section (4X) 21-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery-powered various ships primed + warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross-section (4X) 22-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross-section (4X) 23 times gravity solar power heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with a turbine blade cross section (4X) of 25 times + water storage battery-powered various ships priming + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with twice the turbine blade cross section (4X) + accelerating water in the vertical direction + water storage battery-powered vessels + + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating the water vertically vertically by providing multiple stages of gravity solar thermal heating turbines with three times the turbine blade cross section (4X) + storage battery-powered various ships primed + water with warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross section (4X) + accelerating the water vertically + water storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power heating turbines with 5 times the turbine blade cross section (4X) + accelerating water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method of accelerating water vertically by installing multiple stages of gravity solar thermal heating turbines with 6 times the turbine blade cross section (4X) + storage battery-powered various ships primed + warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravitational solar power heating turbines with a turbine blade cross section (4X) of 7 times + making storage battery-powered various vessels primed + warming and increasing ball raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power heating turbines with 8 times the turbine blade cross section (4X) + accelerating water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating the water vertically by installing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4X) of 10 times + accelerating the water vertically + water storage battery-powered various vessels prime + + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with 11 times the turbine blade cross section (4X) + accelerating the water vertically + storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross-section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical moving blade gravity solar heat turbines aiming at the same maximum water output + multi-stage + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross-section (4X) 15-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical moving blade gravity solar heat turbines aiming at the same maximum water output + multi-stage + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) 16 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical moving blade gravity solar heat turbines aiming at the same maximum water output + multi-stage + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) 17 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical moving blade gravity solar heat turbines aiming at the same maximum water output + multi-stage + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) 18 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical moving blade gravity solar heat turbines aiming at the same maximum water output + multi-stage + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross-section (4X) 19 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head as much as possible with the warming and increasing ball lifting device (2F) + Use the warming and increasing ball lifting device (2F) to raise and store water + Compress the air to increase the width of the long lens and heat 1200 + Energy-saving cycle coalescing engine that drives a heating mass turbine and a heating calorie turbine that increase the amount of accelerated power generation vertically downward + a solar heater on the water surface.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head as much as possible with the warming and increasing ball lifting device (2F) + Use the warming and increasing ball lifting device (2F) to raise and store water + Compress the air to increase the width of the long lens and heat 1200 + Energy storage cycle coalescence engine that accelerates a heavier material vertically downward to drive a heating mass turbine and a heating calorie turbine with increased power generation, and rotates a solar heater on the water surface.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head as much as possible with the warming and increasing ball lifting device (2F) + Use the warming and increasing ball lifting device (2F) to raise and store water + Compress the air to increase the width of the long lens and heat 1200 + The energy storage cycle coalescence engine that drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + tilting and rotating the solar heater on the water surface.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head as much as possible with the warming and increasing ball lifting device (2F) + Use the warming and increasing ball lifting device (2F) to raise and store water + Compress the air to increase the width of the long lens and heat 1200 + Energy storage cycle coalescing engine that drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with hot water vertically downward + Inclined rotation of solar heater on water surface.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head as much as possible with the warming and increasing ball lifting device (2F) + Use the warming and increasing ball lifting device (2F) to raise and store water + Compress the air to increase the width of the long lens and heat 1200 + Energy conservation cycle coalescence engine that heats the air with compressed air acceleration to drive the heating mass turbine and heating calorie turbine with increased power generation and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) gravity solar thermal heating turbines with 25 times the structure and method of accelerating high temperature water vertically downward + make use of hot and cold energy + solar light as heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravity solar power generation heating turbines with twice the turbine blade cross-section (4X) + making hot and cold use prime + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravitational solar power heating turbines with a triple turbine blade cross section (4X). + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   A structure and method for accelerating high-temperature water vertically downward by using multiple stages of gravity solar thermal heating turbines with 4 times the turbine blade cross section (4X) + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 5x gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming increase sphere lift device (2F) to use water storage and storage + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 6 times gravity Solar power generation output Heating turbine blade to make all turbine blades + Factory electrification primed + Insulate and use water riser (2F) + Use long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 7 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 8 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 9x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water rising and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 10 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   With a structure and method of accelerating water vertically downward in the heat retaining turbine with a turbine blade cross-section (4X) in multiple stages with a 15-fold gravity solar power generation heating turbine + Fully electrified housing prime + Heat retention increasing ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 16 times gravity solar power generation heating turbine + full electric electrified house prime + heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar power heating turbines with 17 times the turbine blade cross section (4X) + making the whole electrified house prime + warming increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing gravity turbines with 18 times the turbine blade cross section (4X) + full electrification of residential housing + heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 19-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward in the heat insulation turbine + full electrification house prime + heat insulation increase ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross-section (4X) 20 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + increased long lens width heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravity solar power generation of 21 times + accelerating various battery-powered vehicles + warming and increasing sphere lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) 22 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to store and use water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) structure and method of gravity solar thermal power generation of 23 times + accelerating various battery-powered automobiles + warming and increasing ball rising device (2F) to use and store water + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross-section (4X) 24 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   A structure and method for accelerating high-temperature water vertically downwards by providing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4X) of 25 times + ++ Using a warming and increasing sphere lifting device (2F) to save and use Compressing the heated air and bringing it closer to 1200 ° C + Driving specific masses vertically downward to accelerate the heating mass turbine and heating calorie turbine to increase the power generation amount + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   A structure and method for accelerating hot water vertically downward by installing multiple gravity solar thermal heating turbines with twice the turbine blade cross-section (4X) + + Using the warming and increasing sphere lifting device (2F) to save and use + long lens Compresses heated air to approach 1200 degrees + accelerates heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Rotates solar heater on water surface Various energy conservation cycle coalescence engine.   A structure and method for accelerating hot water vertically downward by providing multiple stages of gravity solar thermal heating turbines with three times the turbine blade cross section (4X) +++ Using the warming and increasing ball rising device (2F) to save and use water + Long lens Compressing the heated air and bringing it close to 1200 degrees + Driving the heated mass turbine and heating calorie turbine to increase the amount of power generated by accelerating and rolling the water vertically downward + Various types of rotating the solar heater inclined on the water surface Energy conservation cycle coalescence engine.   A structure and method for accelerating high-temperature water vertically downward by providing gravity turbines with four times the turbine blade cross-section (4X) in the vertical stage +++ Using the warming-increasing sphere lifting device (2F) to save and use + long lens Compressing the heated air and bringing it closer to 1200 ° C + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Inclining and rotating solar heater on water surface Various energy conservation cycle coalescence engine.   A structure and method for accelerating high-temperature water vertically by installing multiple stages of gravity turbines with a turbine blade cross section (4X) in multiple stages + ++ Using a warming and increasing sphere lifting device (2F) to save and use + long lens Compresses heated air and brings it closer to 1200 degrees + heats air by accelerating compressed air to drive heating mass turbine and heating calorie turbine to increase power generation + solar heater is tilted on the water surface Various energy conservation cycle coalescing engines.   Turbine blade cross section (4X) 6 times gravity Solar power generation output Heating turbine blade to make all turbine blades + Factory electrification primed + Insulate and use water riser (2F) + Use long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 7 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 8 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 9x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water rising and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 10 times gravity solar power output generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use water storage and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 11 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 16 times gravity solar power generation heating turbine + full electric electrified house prime + heat retention increasing ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar power heating turbines with 17 times the turbine blade cross section (4X) + making the whole electrified house prime + warming increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing gravity turbines with 18 times the turbine blade cross section (4X) + full electrification of residential housing + heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 19-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward in the heat insulation turbine + full electrification house prime + heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with a 20 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravity solar power generation of 21 times + accelerating various battery-powered vehicles + warming and increasing sphere lifting device (2F) to use and store water + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 22 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to store and use water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) structure and method of gravity solar thermal power generation of 23 times + accelerating various battery-powered automobiles + warming and increasing ball rising device (2F) to use and store water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross-section (4X) 24 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) structure and method of gravitational solar power generation with 25 times + accelerating storage battery driving various automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravity solar power generation heating turbines with twice the turbine blade cross-section (4X) + making hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravitational solar power heating turbines with a triple turbine blade cross section (4X). Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   A structure and method for accelerating high-temperature water vertically downward by using multiple stages of gravity solar thermal heating turbines with 4 times the turbine blade cross section (4X) Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 5 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 6 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 7 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 8 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 9x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water rising and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 10 times gravity solar power output generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 11 times gravity Solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) 16 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using multiple stages of gravity solar power heating turbines with 17 times the turbine blade cross section (4X) + making the whole electrified house prime + warming increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing gravity turbines with 18 times the turbine blade cross section (4X) + full electrification of residential housing + heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 19-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward in the heat insulation turbine + full electrification house prime + heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with a 20 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   With a structure and method of accelerating water vertically downward in the heat insulation turbine with a turbine blade cross-section (4X) in multiple stages with a 21 times gravity solar power generation heating turbine + Fully electrified house priming + Insulation sphere riser (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 22 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to store and use water + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravity solar thermal power generation of 23 times + accelerating various battery-powered automobiles + warming and increasing ball rising device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross-section (4X) 24 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) structure and method of gravitational solar power generation with 25 times + accelerating storage battery driving various automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) structure and method of double gravitational solar power generation + accelerating various battery-powered vehicles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   A structure and method for accelerating high-temperature water vertically by using multiple stages of gravitational solar power heating turbines with a triple turbine blade cross section (4X). + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   A structure and method for accelerating high-temperature water vertically downward by using multiple stages of gravity solar thermal heating turbines with 4 times the turbine blade cross section (4X) Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 5 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 6 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 8 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 9x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water rising and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 10 times gravity solar power output generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 11 times gravity Solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 12 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming increase sphere lift device (2F) to use water storage and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity as a contact Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 16 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 17-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation and rotate solar heaters on the surface of water.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing gravity turbines with 18 times the turbine blade cross section (4X) + full electrification of residential housing + heat insulation increase ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) 19-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward in the heat insulation turbine + full electrification house prime + heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with a 20 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   With a structure and method of accelerating water vertically downward in the heat insulation turbine with a turbine blade cross-section (4X) in multiple stages with a 21 times gravity solar power generation heating turbine + Fully electrified house priming Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 22 times gravity solar power generation heating turbine + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravity solar thermal power generation of 23 times + accelerating various battery-powered automobiles + warming and increasing ball rising device (2F) to use and store water + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross-section (4X) 24 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) structure and method of gravitational solar power generation with 25 times + accelerating storage battery driving various automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) structure and method of double gravitational solar power generation + accelerating various battery-powered vehicles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) structure and method of gravitational solar thermal power generation 3 times + storage battery drive various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   A structure and method for accelerating high-temperature water vertically downward by using multiple stages of gravity solar thermal heating turbines with 4 times the turbine blade cross section (4X) + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross-section (4X) 5 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 6 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 8 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 9x gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water rising and storage + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 10 times gravity solar power output generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 11 times gravity Solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 12 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming increase sphere lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 13 times gravity Solar power generation output Heating equipment method to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 14-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) 16 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity as a contact Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 17-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 18-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation and rotate solar heaters on the surface of water.   Turbine blade cross section (4X) 19-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward in the heat insulation turbine + full electrification house prime + heat insulation increase ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with a 20 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   With a structure and method of accelerating water vertically downward in the heat insulation turbine with a turbine blade cross-section (4X) in multiple stages with a 21 times gravity solar power generation heating turbine + Fully electrified house priming Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 22 times gravity solar power generation heating turbine + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 23 times gravity solar power generation heating turbine + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross-section (4X) 24 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + increased long lens width heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation with 25 times + accelerating storage battery driving various automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) structure and method of double gravitational solar power generation + accelerating various battery-powered vehicles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) structure and method of gravitational solar thermal power generation 3 times + storage battery drive various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) 4 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + increased long lens width heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross-section (4X) 5 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross-section (4X) 6 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 8 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 10 times gravity solar power output generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing sphere lift device (2F) to use water storage and storage + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 11 times gravity Solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 12 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming increase sphere lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 13 times gravity Solar power generation output Heating equipment method to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 14 times gravity Solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 16 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 17-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity as a contact Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 18-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 19-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation and rotate solar heaters on the surface of water.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with a 20 times gravity solar power generation heating turbine + Fully electrified residential prime Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   With a structure and method of accelerating water vertically downward in the heat insulation turbine with a turbine blade cross-section (4X) in multiple stages with a 21 times gravity solar power generation heating turbine + Fully electrified house priming Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 22 times gravity solar power generation heating turbine + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 23 times gravity solar power generation heating turbine + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multistage turbine blade cross section (4X) with 24 times gravity solar power generation heating turbine + full electric electrified house prime + thermal insulation sphere raising device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation with 25 times + accelerating storage battery driving various automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of double gravitational solar power generation + accelerating various battery-powered vehicles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) structure and method of gravitational solar thermal power generation 3 times + storage battery drive various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) 4 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + increased long lens width heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross-section (4X) 6 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 8 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 11 times gravity Solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 12 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming increase sphere lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 13 times gravity Solar power generation output Heating equipment method to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 14 times gravity Solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 17-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 18-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 19-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation and rotate solar heaters on the surface of water.   With a structure and method of accelerating water vertically downward in the heat insulation turbine with a turbine blade cross-section (4X) in multiple stages with a 21 times gravity solar power generation heating turbine + Fully electrified house priming Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 22 times gravity solar power generation heating turbine + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 23 times gravity solar power generation heating turbine + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multistage turbine blade cross section (4X) with 24 times gravity solar power generation heating turbine + full electric electrified house prime + thermal insulation sphere raising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with a 25-fold gravity solar power generation heating turbine. Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of double gravitational solar power generation + accelerating various battery-powered vehicles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar thermal power generation 3 times + storage battery drive various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) 4 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + increased long lens width heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 8 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) 12 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 13 times gravity Solar power generation output Heating equipment method to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 14 times gravity Solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 17-times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 18-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 19-times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating power as a rolling contact Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with 21 times multiple stages, a structure and method for accelerating specific critical materials vertically downwards + making hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation and rotate solar heaters on the surface of water.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with 22 times gravity solar power generation heating turbine + Fully electrified house prime + Heat retention increasing ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 23 times gravity solar power generation heating turbine + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multistage turbine blade cross section (4X) with 24 times gravity solar power generation heating turbine + full electric electrified house prime + thermal insulation sphere raising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with a 25-fold gravity solar power generation heating turbine. Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravity solar power generation heating turbine with double turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar thermal power generation 3 times + storage battery drive various automobiles primed + warming and increasing sphere lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 4 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + increased long lens width heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) 5 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing sphere lifting device (2F) to save and use + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Configuration and method of accelerating gravity solar thermal power generation water vertically 8 times lower than turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water in the warming and increasing sphere lift device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heating mass turbine to increase specific power generation vertically downward accelerating power generation And driving energy heating turbine + various energy storage cycle coalescing engine that rotates solar heater on the water surface.   Turbine blade cross-section (4X) 9-times gravity solar thermal power generation configuration and method + air pipe air sucked compression heat recovery, superheated steam (50) and compressed air (28a) heated turbine drive respectively + Keeping water in the warming-increasing ball lift device (2F) for storage + Compressing the long lens width increasing air and bringing it closer to 1200 degrees + Accelerating heavier materials vertically downward to increase power generation A combined energy storage cycle engine that drives a mass turbine and a heating calorie turbine and rotates a solar heater on the water surface.   Configuration and method of accelerating 10 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping and storing water using the warming and increasing ball lifting device (2F) + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Heating mass to increase the power generation amount by accelerating rolling contact with water vertically downward Combined engine with various energy storage cycles that drives turbine and heating calorie turbine and rotates solar heater on water surface.   Configuration and method of accelerating 11 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping and storing water using the warming and increasing ball lifting device (2F) + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating to increase power generation by accelerating and rolling hot water vertically downward A combined energy storage cycle engine that drives a mass turbine and a heating calorie turbine and rotates a solar heater on the water surface.   Configuration and method of accelerating the turbine blade cross section (4X) 12 times gravity solar thermal water vertically downward + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Insulate and store water using the warming and increasing ball riser (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Use the compressed air acceleration to heat the air and increase the amount of power generation Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Configuration and method of accelerating 13 times gravity solar thermal power generation vertically downward with turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water in the warming and increasing sphere lift device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heating mass turbine to increase specific power generation vertically downward accelerating power generation And driving energy heating turbine + various energy storage cycle coalescing engine that rotates solar heater on the water surface.   Configuration and method of accelerating 14 times gravity solar thermal power generation vertically down the turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping water in the warming-increasing ball lift device (2F) for storage + Compressing the long lens width increasing air and bringing it closer to 1200 degrees + Accelerating heavier materials vertically downward to increase power generation A combined energy storage cycle engine that drives a mass turbine and a heating calorie turbine and rotates a solar heater on the water surface.   Structure and method of accelerating 15 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping and storing water using the warming and increasing ball lifting device (2F) + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Heating mass to increase the power generation amount by accelerating rolling contact with water vertically downward Combined engine with various energy storage cycles that drives turbine and heating calorie turbine and rotates solar heater on water surface.   Configuration and method of accelerating 16 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping and storing water using the warming and increasing ball lifting device (2F) + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating to increase power generation by accelerating and rolling hot water vertically downward A combined energy storage cycle engine that drives a mass turbine and a heating calorie turbine and rotates a solar heater on the water surface.   Configuration and method for accelerating 17 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Insulate and store water using the warming and increasing ball riser (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Use the compressed air acceleration to heat the air and increase the amount of power generation Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 18 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 19-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with a turbine blade cross section (4X) 20 times in the vertical direction + storage battery-powered various ship primes + water with a warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross-section (4X) 21-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery-powered various ships primed + warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross-section (4X) 22-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross-section (4X) 23 times gravity solar power heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with a turbine blade cross section (4X) of 25 times + water storage battery-powered various ships priming + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with twice the turbine blade cross section (4X) + accelerating water in the vertical direction + water storage battery-powered vessels + + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   A structure and method for accelerating the water vertically vertically by providing multiple stages of gravity solar thermal heating turbines with three times the turbine blade cross section (4X) + storage battery-powered various ships primed + water with warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heating air and bring it close to 1200 degrees + Drive the specific mass material vertically downward accelerating power generation heating mass turbine and heating heat quantity turbine + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross section (4X) + accelerating the water vertically + water storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power heating turbines with 5 times the turbine blade cross section (4X) + accelerating water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method of accelerating water vertically by installing multiple stages of gravity solar thermal heating turbines with 6 times the turbine blade cross section (4X) + storage battery-powered various ships primed + warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravitational solar power heating turbines with a turbine blade cross section (4X) of 7 times + making storage battery-powered various vessels primed + warming and increasing ball raising device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity solar power heating turbines with 8 times the turbine blade cross section (4X) + accelerating water in the vertical direction + water storage battery-powered vessels + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to drive the heating mass turbine and heating heat quantity turbine with increased power generation + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating the water vertically by installing multiple stages of gravity solar power heating turbines with a turbine blade cross section (4X) of 10 times + accelerating the water vertically + water storage battery-powered various ships primed + warming and increasing ball rising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with 11 times the turbine blade cross section (4X) + accelerating the water vertically + storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) 13 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heated heat turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross-section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross-section (4X) 15-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 16 times gravity solar power generation heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 17 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 18 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Drive the heated mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 19-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with a turbine blade cross section (4X) 20 times in the vertical direction + storage battery-powered various ship primes + water with a warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross-section (4X) 21-times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery-powered various ships primed + warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross-section (4X) 22-times gravity solar power generation heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery driven various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross-section (4X) 23 times gravity solar power heating turbines are provided in multiple stages to accelerate water vertically downward + storage battery powered various ships primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Heat the air with compressed air acceleration to drive the heating mass turbine and the heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 24 times gravity solar power heating turbines are installed in multiple stages to accelerate water vertically downward + storage battery driven various vessels primed + warming and increasing ball lifting device (2F) water + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical moving blade gravity solar heat turbines aiming at the same maximum water output + multi-stage + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with a turbine blade cross section (4X) of 25 times + water storage battery-powered various ships priming + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical moving blade gravity solar heat turbines aiming at the same maximum water output + multi-stage + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing multiple gravity solar thermal heating turbines with twice the turbine blade cross section (4X) + accelerating water in the vertical direction + water storage battery-powered vessels + + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical moving blade gravity solar heat turbines aiming at the same maximum water output + multi-stage + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating the water vertically vertically by providing multiple stages of gravity solar thermal heating turbines with three times the turbine blade cross section (4X) + storage battery-powered various ships primed + water with warming and increasing ball lift device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical moving blade gravity solar heat turbines aiming at the same maximum water output + multi-stage + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing multiple stages of gravity turbines with 4 times the turbine blade cross section (4X) + accelerating the water vertically + water storage battery-powered various ships primed + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical moving blade gravity solar heat turbines aiming at the same maximum water output + multi-stage + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross-section (4X) 5 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy storage cycle coalescence engine that drives a heating mass turbine and a heating calorie turbine that increase the amount of accelerated power generation in the vertical downward direction and a solar heater on the water surface.   Turbine blade cross-section (4X) 6 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engine that accelerates heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation and rotate solar heater on the water surface.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy storage cycle coalescence engines that rotate the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically and rotating the solar heater on the water surface.   Turbine blade cross section (4X) 8 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy conservation cycle coalescence engines that drive hot mass turbines and heating calorie turbines with increased power generation by accelerating rolling contact with hot water vertically downward and rotating solar heaters on the surface of water.   Turbine blade cross section (4X) 9 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Various energy storage cycle coalescence engine that heats air by accelerating compressed air to drive heating mass turbine and heating calorie turbine with increased power generation and inclines and rotates solar heater on water surface.   Turbine blade cross-section (4X) 10 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 15 times gravity solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and save water + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) 20 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with 21 times multiple stages, a structure and method for accelerating specific critical materials vertically downwards + making hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a multistage turbine blade cross section (4X) with a 25-fold gravity solar power generation heating turbine. Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravity solar power generation heating turbine with double turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage gravity solar thermal heating turbine with three times the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravitational solar power generation heating turbine with 4 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 5 times gravity solar power generation heating turbine + making the whole electrified house prime + heat retaining increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 6 times gravity solar thermal power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) structure and method of gravitational solar power generation 10 times + accelerating various battery-powered automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross section (4X) 11 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) 16 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 20 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) gravity solar power heating turbines with 21 times multiple stages, a structure and method for accelerating specific critical materials vertically downwards + making hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) Gravity solar power heating turbine with multiple stages 25 times, structure and method to accelerate specific critical materials vertically downward + heat and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravity solar power generation heating turbine with double turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage gravity solar thermal heating turbine with three times the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravitational solar power generation heating turbine with 4 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 5 times gravity solar power generation heating turbine + making the whole electrified house prime + heat retaining increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a 6-fold gravity solar power generation heating turbine with a turbine blade cross section (4X) in a multi-stage + full electrification house priming + heat insulation increase ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross-section (4X) 7 times gravity solar power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lift device (2F) used to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) structure and method of gravitational solar power generation 10 times + accelerating various battery-powered automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross-section (4X) 11 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to use water storage and storage + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross-section (4X) 12 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 16 times gravity solar thermal power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 17 times gravity Solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 20 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 21 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing ball lift device (2F) to use and save water + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 22 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) Gravity solar power heating turbine with multiple stages 25 times, structure and method to accelerate specific critical materials vertically downward + heat and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Structure and method of accelerating specific critical substances vertically and vertically by using multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4X) + making use of hot and cold heat + a long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage gravity solar thermal heating turbine with three times the turbine blade cross section (4X) + Fully electrified house priming + Heat retention increasing ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravitational solar power generation heating turbine with 4 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 5 times gravity solar power generation heating turbine + making the whole electrified house prime + heat retaining increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a 6-fold gravity solar power generation heating turbine with a turbine blade cross section (4X) in a multi-stage + full electrification house priming + heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing a multi-stage gravity solar power heating turbine with a turbine blade cross section (4X) of 7 times + Fully electrified house priming + Heat retention increasing ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross-section (4X) 8 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing sphere lift device (2F) to save and use water + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) structure and method of gravitational solar power generation 10 times + accelerating various battery-powered automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross-section (4X) 11 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to use water storage and storage + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) structure and method of 12 times gravity solar power generation + storage battery driven various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross section (4X) 13 times gravity solar power generation Heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + Sunlight becomes heat absorbing material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 16 times gravity solar thermal power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 17 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 18 times gravity Solar power generation generation Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lifting device (2F) to use and save water + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 20 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 21 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 22 times gravity solar power generation output Heating turbine blade to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 23 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) Gravity solar power heating turbine with multiple stages 25 times, structure and method to accelerate specific critical materials vertically downward + heat and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating specific critical substances vertically and vertically by using multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4X) + making use of hot and cold heat + a long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with three times the structure and method of accelerating specific critical substances vertically downward + make hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in the heat insulation turbine by using a multi-stage gravitational solar power generation heating turbine with 4 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 5 times gravity solar power generation heating turbine + making the whole electrified house prime + heat retaining increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a 6-fold gravity solar power generation heating turbine with a turbine blade cross section (4X) in a multi-stage + full electrification house priming + heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing a multi-stage gravity solar power heating turbine with a turbine blade cross section (4X) of 7 times + Fully electrified house priming + Heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 8 times gravity solar power generation heating turbine + making the entire electrified house prime + heat retaining increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 9 times gravity solar thermal power generation structure and method + battery-powered various automobiles primed + warming and increasing ball lifting device (2F) used to save and use + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation 10 times + accelerating various battery-powered automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross-section (4X) 11 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to use water storage and storage + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross section (4X) structure and method of 12 times gravity solar power generation + storage battery driven various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross-section (4X) structure and method of 13 times gravity solar power generation + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross section (4X) 14 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross-section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 16 times gravity solar thermal power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 17 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 18 times gravity gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 19 times gravity solar power generation generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 20 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 21 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing ball lift device (2F) to use and save water + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 22 times gravity solar power generation output Heating turbine blade to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 23 times gravity solar power generation power generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 24 times gravity solar power generation heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) Gravity solar power heating turbine with multiple stages 25 times, structure and method to accelerate specific critical materials vertically downward + heat and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Structure and method of accelerating specific critical substances vertically and vertically by using multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4X) + making use of hot and cold heat + a long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating power as a rolling contact Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with three times the structure and method of accelerating specific critical substances vertically downward + make hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   A structure and method of accelerating specific critical substances vertically and vertically by using multiple stages of gravity solar power generation heating turbines with 4 times the turbine blade cross section (4X) + heat and cold energy priming + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 5 times gravity solar power generation heating turbine + making the whole electrified house prime + heat retaining increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a 6-fold gravity solar power generation heating turbine with a turbine blade cross section (4X) in a multi-stage + full electrification house priming + heat insulation increase ball lift device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing a multi-stage gravity solar power heating turbine with a turbine blade cross section (4X) of 7 times + Fully electrified house priming + Heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 8 times gravity solar power generation heating turbine + making the entire electrified house prime + heat retaining increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multistage turbine blade cross section (4X) with 9 times gravity solar power generation heating turbine + making the whole electrified house prime + thermal insulation increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation 10 times + accelerating various battery-powered automobiles + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross-section (4X) 11 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to use water storage and storage + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross section (4X) structure and method of 12 times gravity solar power generation + storage battery driven various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross-section (4X) structure and method of 13 times gravity solar power generation + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross-section (4X) 14 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross-section (4X) 15 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold energy + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 16 times gravity solar thermal power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 17 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 18 times gravity gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 19 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 20 times gravity solar power generation output Heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 21 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing ball lift device (2F) to use and save water + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 22 times gravity solar power generation output Heating turbine blade to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 23 times gravity solar power generation power generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 24 times gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) Gravity solar power heating turbine with multiple stages 25 times, structure and method to accelerate specific critical materials vertically downward + heat and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Structure and method of accelerating specific critical substances vertically and vertically by using multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4X) + making use of hot and cold heat + a long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with three times the structure and method of accelerating specific critical substances vertically downward + make hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   A structure and method of accelerating specific critical substances vertically and vertically by using multiple stages of gravity solar power generation heating turbines with 4 times the turbine blade cross section (4X) + heat and cold energy priming + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with multi-stages are arranged in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in a heat insulation turbine by providing a 6-fold gravity solar power generation heating turbine with a turbine blade cross section (4X) in a multi-stage + full electrification house priming + heat insulation increase ball lift device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing a multi-stage gravity solar power heating turbine with a turbine blade cross section (4X) of 7 times + Fully electrified house priming + Heat retention increasing ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 8 times gravity solar power generation heating turbine + making the entire electrified house prime + heat retaining increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multistage turbine blade cross section (4X) with 9 times gravity solar power generation heating turbine + making the whole electrified house prime + thermal insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating the water vertically downward in the heat insulation turbine with a turbine blade cross-section (4X) in multiple stages with a gravitational solar power generation heating turbine + Fully electrified house priming + Heat insulation increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross-section (4X) 11 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing ball lifting device (2F) to use water storage and storage + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of 12 times gravity solar power generation + storage battery driven various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross-section (4X) structure and method of 13 times gravity solar power generation + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross-section (4X) 14 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross-section (4X) 15 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + increase long lens width heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross section (4X) 16 times gravity solar thermal power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross-section (4X) 17 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 18 times gravity gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 19 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 21 times gravity solar power generation output heating equipment method to make all heating turbine blades + factory electrification primed + warming and increasing ball lift device (2F) to use and save water + long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 22 times gravity solar power generation output Heating turbine blade to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 23 times gravity solar power generation power generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 24 times gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 25x gravity solar power output generation Heating turbine blade equipment + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Structure and method of accelerating specific critical substances vertically and vertically by using multiple stages of gravity solar thermal heating turbines with twice the turbine blade cross section (4X) + making use of hot and cold heat + a long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with three times the structure and method of accelerating specific critical substances vertically downward + make hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   A structure and method of accelerating specific critical substances vertically and vertically by using multiple stages of gravity solar power generation heating turbines with 4 times the turbine blade cross section (4X) + heat and cold energy priming + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating power as a rolling contact Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with multi-stages are arranged in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   A structure and method of accelerating specific critical substances vertically downwards by using multiple stages of gravity solar thermal heating turbines with 6 times the turbine blade cross section (4X) + making use of heat and cold + long-lens heat absorption material for sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing a multi-stage gravity solar power heating turbine with a turbine blade cross section (4X) of 7 times + Fully electrified house priming + Heat retention increasing ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 8 times gravity solar power generation heating turbine + making the entire electrified house prime + heat retaining increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multistage turbine blade cross section (4X) with 9 times gravity solar power generation heating turbine + making the whole electrified house prime + thermal insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating the water vertically downward in the heat insulation turbine with a turbine blade cross-section (4X) in multiple stages with a gravitational solar power generation heating turbine + Fully electrified house priming + Heat insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   With a structure and method of accelerating water vertically downward in the heat retaining turbine with a multi-stage gravity solar thermal heating turbine with 11 times the turbine blade cross section (4X) Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of 12 times gravity solar power generation + storage battery driven various automobiles primed + warming and increasing ball lifting device (2F) used for water storage and storage + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross-section (4X) structure and method of 13 times gravity solar power generation + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross-section (4X) 14 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + long lens width increasing heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross-section (4X) 15 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + increase long lens width heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross-section (4X) 16 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing sphere lifting device (2F) to store and use water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Turbine blade cross-section (4X) 17 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increasing the width of the long lens Compressing the heated air and bringing it closer to 1200 ° C Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Turbine blade cross section (4X) 18 times gravity gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Collecting in a straight line + Using the warming and increasing ball lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) 19 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material Gather in a straight line + Use warming and increasing ball lift device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Increase the amount of power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   Turbine blade cross-section (4X) 20 times gravity solar power heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of hot and cold heat + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air by increasing the width of the long lens and bringing it closer to 1200 ° C + Accelerating the hot water vertically downward and generating power Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) gravity solar power heating turbines with 21 times greater structure and method of accelerating high temperature water vertically downward + make hot and cold use prime + long lens to make sunlight into heat absorbing material + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the water with compressed air acceleration to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 22 times gravity solar power generation output Heating turbine blade to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compressed air with increased width and approached 1200 degrees + Specific critical material vertically driven Heated mass turbine and heated heat turbine with increased power generation + Driven various solar energy by tilting and rotating solar heater on water surface Cycle coalescence engine.   Turbine blade cross section (4X) 23 times gravity solar power generation power generation heating turbine blade equipment method + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressed air with increased width heating to approach 1200 degrees + Accelerate heavier material vertically downward to drive heated mass turbine and heated heat turbine with increased power generation + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 24 times gravity solar power generation output Heating turbine blade to make all turbine blades + factory electrification prime + warming and increasing ball riser (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving the heated mass turbine and heated heat turbine with increased power generation by accelerating and rolling the water vertically downward + Various energy to tilt and rotate the solar heater on the water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 25x gravity solar power output generation Heating turbine blade equipment + factory electrification prime + warming and increasing ball lift device (2F) to use water storage and storage + long lens Compressing air with increased width and bringing it closer to 1200 degrees + Driving hot mass turbine and heating calorie turbine with increased power generation by accelerating and rolling hot water vertically downward + Various types of rotating solar heater on water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) Double gravity solar power generation output Heating turbine blades to make all turbine blades + Factory electrification primed + Insulate and use water with warming and increasing ball riser (2F) + Long lens Compress the air with increased width and bring it closer to 1200 degrees + heat the air with compressed air acceleration to drive the heated mass turbine and heated heat turbine with increased power generation + rotate the solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross-section (4X) gravity solar power heating turbines with three times the structure and method of accelerating specific critical substances vertically downward + make hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C The energy storage cycle coalescence engine that drives the heating mass turbine and the heating calorie turbine of + and rotates the solar heater on the water surface.   A structure and method of accelerating specific critical substances vertically and vertically by using multiple stages of gravity solar power generation heating turbines with 4 times the turbine blade cross section (4X) + heat and cold energy priming + solar heat absorption material with long lens + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with multi-stages are arranged in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity as a contact Drives an increasing heating mass turbine and heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   A structure and method of accelerating specific critical substances vertically downwards by using multiple stages of gravity solar thermal heating turbines with 6 times the turbine blade cross section (4X) + making use of heat and cold + long-lens heat absorption material for sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Drives a heating mass turbine and a heating calorie turbine with increased amount of energy + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 7 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical materials vertically downward + make use of hot and cold heat + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines that drive heating mass turbines and heating calorie turbines with increased power generation, and rotate solar heaters on water surfaces.   A structure and method for accelerating water vertically downward in the heat retaining turbine by using a multistage turbine blade cross section (4X) with 8 times gravity solar power generation heating turbine + making the entire electrified house prime + heat retaining increase ball rising device (2F) Uses water for storage + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the specific mass of the material vertically and accelerates the heating mass turbine and heating heat turbine to increase the amount of accelerated power generation + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   A structure and method for accelerating water vertically downward in the thermal insulation turbine by using a multistage turbine blade cross section (4X) with 9 times gravity solar power generation heating turbine + making the whole electrified house prime + thermal insulation increase ball rising device (2F) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Accelerates heavier materials vertically downward to drive the heating mass turbine and heating calorie turbine with increased power generation + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating the water vertically downward in the heat insulation turbine with a turbine blade cross-section (4X) in multiple stages with a gravitational solar power generation heating turbine + Fully electrified residential prime Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives the heating mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   With a structure and method of accelerating water vertically downward in the heat retaining turbine with a multi-stage gravity solar thermal heating turbine with 11 times the turbine blade cross section (4X) Uses water for preserving + Increases the width of the long lens Compresses the heated air to approach 1200 degrees + Drives hot mass turbine and heating calorie turbine with increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by using a 12-fold gravity solar power generation heating turbine with a turbine blade cross section (4X) + a fully electrified residential prime Uses water for storage + Increases the width of the long lens Compresses heated air to approach 1200 degrees + Heats air with compressed air acceleration to drive heated mass turbine and heated heat turbine with increased power generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross-section (4X) structure and method of 13 times gravity solar power generation + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to use and store water + long lens width increasing heating Compressed air to bring it close to 1200 degrees + Drives a heated mass turbine and a heated calorie turbine that increase the amount of accelerated power generation vertically downward + Various energy conservation cycle coalescence engines that rotate and rotate the solar heater on the water surface.   Turbine blade cross-section (4X) 14 times gravity solar power generation structure and method + battery powered various automobiles primed + warming and increasing sphere lifting device (2F) used to save and use + long lens width increasing heating Compress air and bring it closer to 1200 degrees + Accelerate heavier materials vertically downward to drive heating mass turbine and heating calorie turbine with increased power generation + Combined various energy conservation cycles to rotate solar heater on the water surface organ.   Turbine blade cross-section (4X) 15 times gravity solar power generation structure and method + battery-powered various automobiles flourishing + warming and increasing ball lifting device (2F) to save and use + increase long lens width heating Compressing air and bringing it closer to 1200 degrees + Driving water in a vertically downward rolling contact to drive a heated mass turbine and a heating calorie turbine with increased power generation + Various energy conservation cycle coalescence engines that rotate and rotate a solar heater on the water surface .   Turbine blade cross-section (4X) 16 times gravity solar power generation structure and method + battery-powered various automobiles priming + warming and increasing sphere lifting device (2F) to store and use water + long lens width increasing heating Compress air and bring it close to 1200 degrees + High-temperature water is accelerated and contacted vertically downward to drive a heated mass turbine and a heated calorie turbine with increased power generation + Combined with various energy conservation cycles that rotate and rotate a solar heater on the water surface organ.   Turbine blade cross section (4X) 17 times gravity solar thermal power generation structure and method + storage battery driven various automobiles primed + warming and increasing ball lift device (2F) to use and store water + long lens width increasing heating Compress air and bring it closer to 1200 degrees + heat the water by accelerating the compressed air to drive the heated mass turbine and heating calorie turbine with increased power generation + various energy storage cycles that rotate and tilt the solar heater on the water surface Combined organization.   Configuration and method of accelerating 18 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water in the warming and increasing sphere lift device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heating mass turbine to increase specific power generation vertically downward accelerating power generation And driving energy heating turbine + various energy storage cycle coalescing engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 19-times gravity solar thermal power generation configuration and method + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping water in the warming-increasing ball lift device (2F) for storage + Compressing the long lens width increasing air and bringing it closer to 1200 degrees + Accelerating heavier materials vertically downward to increase power generation A combined energy storage cycle engine that drives a mass turbine and a heating calorie turbine and rotates a solar heater on the water surface.   Turbine blade cross section (4X) configuration and method of accelerating 20 times gravity solar power generation vertically downward + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping and storing water using the warming and increasing ball lifting device (2F) + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Heating mass to increase the power generation amount by accelerating rolling contact with water vertically downward Combined engine with various energy storage cycles that drives turbine and heating calorie turbine and rotates solar heater on water surface.   Turbine blade cross section (4X) configuration and method for accelerating gravity solar thermal power water 21 times vertically + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping and storing water using the warming and increasing ball lifting device (2F) + Compressing the air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating to increase power generation by accelerating and rolling hot water vertically downward A combined energy storage cycle engine that drives a mass turbine and a heating calorie turbine and rotates a solar heater on the water surface.   Turbine blade cross section (4X) configuration and method of accelerating 22 times gravity solar power water vertically downward + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Insulate and store water using the warming and increasing ball riser (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Use the compressed air acceleration to heat the air and increase the amount of power generation Drives a heating mass turbine and a heating calorie turbine + various energy storage cycle coalescing engines that rotate and rotate a solar heater on the water surface.   Configuration and method of accelerating the turbine blade cross section (4X) 23 times gravity solar thermal water vertically downward + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Increase and store water in the warming and increasing sphere lift device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Heating mass turbine to increase specific power generation vertically downward accelerating power generation And driving energy heating turbine + various energy storage cycle coalescing engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) configuration and method of accelerating 24 times gravity solar power water vertically downward + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping water in the warming-increasing ball lift device (2F) for storage + Compressing the long lens width increasing air and bringing it closer to 1200 degrees + Accelerating heavier materials vertically downward to increase power generation A combined energy storage cycle engine that drives a mass turbine and a heating calorie turbine and rotates a solar heater on the water surface.   Configuration and method of accelerating 25 times gravity solar thermal power generation vertically down turbine blade cross section (4X) + air pipe air is recovered by suction compression heat and heated turbine driven by superheated steam (50) and compressed air (28a), respectively + Keeping and storing water using the warming and increasing ball lifting device (2F) + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Heating mass to increase the power generation amount by accelerating rolling contact with water vertically downward Combined engine with various energy storage cycles that drives turbine and heating calorie turbine and rotates solar heater on water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at a + solar solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity Various energy storage cycle coalescing engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aimed at increasing in two stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Three stages of two types of full-rotor gravity gravity solar turbines aiming to increase the amount of accelerated power generation in the vertical downward direction + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward 4 energy storage cycle coalescing engines that rotate the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that incline and rotate + solar heaters installed in 5 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward A 6-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy conservation cycle coalescence engines that rotate 7 types of solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Eight stages of two types of full-rotor gravity gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 9 types of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated power generation vertically + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Ten stages of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Eleven stages of two types of full-rotor gravity gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + Twelve stages of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated power generation vertically + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is a 13-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is a 15-stage + solar energy heater that combines and rotates various energy conservation cycles on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is a 16-stage + various energy storage cycle coalescing engine that rotates and rotates a solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescence engine that rotates the + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward A combined energy storage cycle engine that rotates the + solar heaters installed on the 18th stage on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heater on the water surface at 19th stage.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heaters installed on the 20th stage on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate and tilt + solar heaters on 21 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heater on the water surface at 22 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescence engine that rotates the + solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is a 25-stage + solar energy heater combined with various energy storage cycle that tilts and rotates on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that inclines and rotates the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy conservation cycle coalescence engines that rotate the solar heater on the water surface with 28 kinds of types.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy conservation cycle coalescence engines that rotate the solar heater on the water surface with 29 types of + solar heaters.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy conservation cycle coalescing engines that rotate the solar heaters on the water surface with 30 types of types.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heaters on the surface of the water, which are provided in 31 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heaters on the surface of the water with the types provided in 32 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Provide two types of vertical rotor blade gravity solar turbines in 33 stages aiming for the same amount of maximum water generation + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation provided in 34 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation in 35 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Two types of full-type blade gravity solar heat turbines aiming at the same water maximum power generation in 36 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation in 37 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Energy-saving cycle coalescing engine that has two types of vertical rotor blade gravity solar thermal turbines in 38 stages, aiming to increase the amount of accelerated power generation in the vertical direction.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical rotor blade gravity solar turbines that aim to increase power generation by accelerating heavier materials vertically downward + 39 stages + Combined with various energy conservation cycles that rotate and rotate solar heaters on the water surface organ.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical moving blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + 40 types of vertical moving blade gravity solar heat turbines + Various energy conservation cycle coalescence engines that rotate and rotate solar heater on water surface .   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical moving blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + 41 stages + various energy conservation cycle combining solar heaters on the water surface organ.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees Approaching + Heating air with compressed air acceleration and aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar turbines are installed in 42 stages + Various energy conservation cycles in which solar heaters are tilted and rotated on the water surface Combined organization.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-rotor gravity gravity solar turbines aimed at increase in 43 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescing engines that rotate two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 44 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines aiming to increase the quantity in 45 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical-type full-wing blade gravity solar turbines aiming to increase power generation in 46 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the surface of water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed to approach 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar power heaters provided in 48 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 49 days + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical bladed solar gravity turbines aiming at increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + 52 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the quantity are provided in 53 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical-type full-blade gravity solar turbines that aim to increase power generation in 54 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 55 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 56 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of power generation are provided in 57 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the water of the long lens + Compress the heating air of the long lens and bring it closer to 1200 ° C + 58 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward 58 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescence engines that rotate the solar heater on the water surface with 59 types of + solar power heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescence engines that rotate the solar heater on the water surface with a 61-stage type + solar heater.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy conservation cycle coalescing engines that rotate the solar heater on the water surface with two types provided in 62 stages.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar turbines are installed in 63 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar heat turbines provided in 64 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with hot water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar heat turbines to be increased are provided in 68 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar turbines in 69 stages, aiming to increase power generation, and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blades gravitational solar heat turbines aiming to increase quantity in 70 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 71 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is an engine that combines two types of energy storage cycle, in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are installed in 72 stages, and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the air to increase the lens width and bringing it closer to 1200 degrees + Two types of full-scale blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater with 73 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-sized blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 74 stages of sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aimed at increasing power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling hot water vertically downward + 76 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 77 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are provided in 78 stages + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 79 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engine that rotates two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 80 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical all blade gravity solar heat turbines aiming to increase power generation are provided in 81 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy storage cycle coalescing engines, in which two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 82 stages, and solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 degrees + Add two types of vertical-type full-blade gravity solar turbines aiming to increase the amount of accelerated power generation in the vertically downward direction A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescence engines that rotate the + solar heater on the water surface with 84 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 A variety of energy conservation cycle coalescing engines that rotate 86 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy conservation cycle coalescence engine with 87 types + solar heating heater tilted on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar turbines are installed in 88 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier material vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar heat turbines provided in 89 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with high temperature water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Heating air with compressed air acceleration and aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar turbines provided in 92 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical all-blade gravitational solar turbines to increase in 93 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 94 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity installed in 95 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescing engines in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are installed in 96 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 97 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhance the lens width by heating the air and bring it closer to 1200 ° C. + Two types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier substances vertically downward + Sunlight + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aimed at increasing power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar light Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + 102 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming to increase the quantity in 103 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 104 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Combined various energy conservation cycle coalescence engines with two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation provided in 105 stages and rotating solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 106 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration The energy storage cycle coalescing engine, in which two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 107 stages and the solar heater is tilted and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Add two types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated power generation in the vertically downward direction with specific critical substances 108 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy storage cycle coalescing engines that rotate 109 types of solar heaters on 109 levels.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 111 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescence engine with 112 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Specific critical substances vertically accelerating the amount of acceleration power generation aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines provided in 113 stages + Solar heater heated on the surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + 114 solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross-section (4X) structure and method of gravitational solar power generation 2 to 26 times + accelerating various battery-powered vehicles + warming and increasing sphere lifting device (2F) to use and store water + increase the width of the long lens Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy conservation cycle coalescing engine that is tilted and rotated by   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of full-sized bladed gravitational solar heat turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + 116 solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compress the heated air and bring it close to 1200 degrees + Heating the air with compressed air acceleration and aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar turbines provided in 117 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater with 118 types of two types of full-scale blade-driven gravitational solar turbines to be increased in 118 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines in 119 stages, aiming to increase power generation, and rotate solar solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lifting device (2F) to save and use water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Power generation as accelerated rolling contact with water vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increasing quantity in 120 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar turbines aiming at increased power generation in a single stage and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles that rotates two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in two stages and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and store water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar power heaters provided in 3 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 7 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are installed in 8 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar turbines in 10 stages aiming to increase the amount of power generation and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical all-blade gravity solar heat turbines aiming to increase power generation are installed in 11 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are provided in 12 stages + a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and compress the heated air to approach 1200 degrees + Add two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation in the vertical downward direction with specific critical substances 13 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate 14 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is a 15-stage + solar energy heater that combines and rotates various energy conservation cycles on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescing engines that rotate 16 solar heaters on the water surface with 16 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 17 types of + solar heaters that rotate and rotate on the surface of the water.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar heat turbines are provided in 18 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines to be increased in 23 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescing engines, in which two types of vertical-type full-blade gravitational solar heat turbines aiming at increased power generation are provided in 24 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are provided in 25 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescing engines, in which two types of vertical all-blade gravity solar thermal turbines aiming at increased power generation are provided in 26 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 27 stages + a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressed air with increased lens width heating to approach 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + 28 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 29 sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward are provided in 31 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Water is supplied by accelerating compressed air to heat the air and aiming to increase power generation Two types of full blade gravity solar thermal turbines are provided in 32 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines aiming to increase the quantity in 33 stages + rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aimed at increasing power generation in 34 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar turbines in 35 stages to increase the amount of power generation and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical type moving blade gravity solar heat turbines aiming to increase power generation are provided in 36 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is an engine that combines two types of energy conservation cycle, in which two types of vertical-type full-blade gravitational solar turbines aiming to increase power generation are provided in 37 stages, and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 ° C + 38 types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy storage cycle coalescing engines that rotate 39 types of solar heaters on 39 levels.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 41 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 42 types of solar heater + rotating on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Specific critical substances vertically accelerated downward to increase the amount of accelerated power generation Two types of vertical rotor blade gravity solar heat turbines are provided in 43 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier material vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar turbines provided in 44 stages + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Water is accelerated vertically downward and contacted by two types of vertical rotor blade gravity solar heat turbines aiming at increased power generation in 45 stages + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Heating air with compressed air acceleration and aiming to increase the amount of power generation Two vertical rotor blade gravity solar turbines provided in 47 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical all-blade gravity solar turbines targeted for increase are provided in 48 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Combined with various energy storage cycle engines, which are provided with 49 types of vertical-type full-blade gravity solar turbines that aim to increase the amount of power generation, and + solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar heat turbines aiming to increase the quantity in 50 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A combination of various energy conservation cycle engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 51 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that tilts and rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the width of the lens and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward + 56 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 57 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar thermal turbines aiming to increase the quantity in 58 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined engine with various energy conservation cycles in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are installed in 59 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation are provided in 60 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy-saving cycle coalescence engine, two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation are provided in 61 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 62 stages + a combined energy storage cycle engine that rotates a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Add two types of vertical rotor blade gravity solar turbines that aim to increase the amount of accelerated power generation vertically by increasing specific critical substances 63 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 64 types of solar power heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescing engine that rotates the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heaters on the water surface with the types provided in 66 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 67 types of solar power heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full rotor blade gravity solar heat turbines are provided in 68 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar heat turbines are installed in 69 stages + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater with 72 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar heat turbines aimed at increase in 73 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Combined various energy storage cycle engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aimed at increasing power generation provided in 74 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that incline and rotate a solar heater on the water surface with two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity installed in 75 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescing engines with two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation provided in 76 stages and rotating solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 77 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air to increase the lens width and approaching 1200 degrees + Vertically moving blade gravity solar thermal turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downwards + 78 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 79 stages of sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 82 stages Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are provided in 83 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy storage cycle coalescing engine in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are installed in 84 stages and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 85 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 86 stages, and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are installed in 87 stages, and solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + 88 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward 88 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy conservation cycle coalescence engine that rotates the solar heater on the water surface with a variety of types in 89 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescence engines that rotate the solar heater on the water surface with the types provided in 91 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 92 types of solar power heaters that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Inclined solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward to increase power generation 2 types of vertical rotor blade gravity solar heat turbines installed in 94 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling hot water vertically downward contact + Solar power heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Heating air with compressed air acceleration and aiming to increase power generation Two types of vertical bladed solar gravity turbines with 97 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aimed for increase in 98 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 99 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increasing the quantity in a 100-stage + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 101 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy storage cycle coalescing engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 102 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravitational solar turbines aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + Solar heater with 103 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + 106 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 107 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines with two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of solar turbines and 108 solar stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 109 stages + various energy storage cycle coalescing engines that rotate and tilt solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A combination of various energy conservation cycle engines that have two types of vertical all-blade gravitational solar turbines aiming to increase power generation, and are provided with 110 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 111 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar turbines in 112 stages to increase power generation and rotate the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy conservation cycle coalescence engines that rotate 114 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward + 115 energy-saving cycle coalescing engines that rotate and rotate solar heaters on the surface of water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 A variety of energy storage cycle coalescing engines that rotate 116 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescence engine with 117 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 ° C + 2 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical materials vertically downward + Inclined solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing the heated air to approach 1200 degrees + 119 stages of two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating and rolling hot water vertically downward contact + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees This is a combined energy storage cycle engine with two types of full-rotor-gravity solar power turbines installed in 3 stages and rotating a solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming for the above are installed in four stages, and solar heaters are tilted and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical all-blade gravitational solar turbines to be aimed at and + rotate solar heaters on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar turbines in 6 stages and rotate solar heaters on the surface of water.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming for increase in 7 stages and rotate solar heaters on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees This is a combined energy storage cycle engine with two types of full-rotor-gravity gravitational solar heat turbines installed in 8 stages and rotating the solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface, which is equipped with two types of vertical rotor blade gravity solar heat turbines aiming at   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar heat turbines aimed at +10 solar heaters on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines in 11 stages and rotate solar heaters on the surface of water.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming for increase in 12 stages + solar heaters that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Thirteen stages of two types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters on the water surface in 15 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is a 16-stage + various energy storage cycle coalescing engine that rotates and rotates a solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration A variety of energy conservation cycle coalescing engines that rotate the solar heater on the water surface with 17 types of stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 18 stages of 2 types of full-rotor gravity gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the length of the long lens and compress the heated air to approach 1200 degrees + 19 types of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated power generation in the vertical direction + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Twenty stages of two types of full-rotor gravity gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 21 stages of two types of full-sized bladed gravitational solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 22 stages of two types of full-rotor gravity gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescence engine that rotates the + solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is a 25-stage + solar energy heater combined with various energy storage cycle that tilts and rotates on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that inclines and rotates the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters on 28 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heaters on the water surface at 29 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate and rotate + solar heaters provided in 30 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heaters provided on the 31st stage on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate and rotate + solar heaters installed in 32 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is an energy storage cycle coalescing engine that rotates a solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is an energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is an energy storage cycle coalescence engine that rotates a solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is a 37-stage + solar energy heater that combines and rotates various energy conservation cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate 38 types of solar heaters on 38 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration A variety of energy storage cycle coalescing engines that rotate 39 types of solar heaters on 39 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy conservation cycle coalescence engines that rotate the solar heater on the water surface with 40 types of solar power heaters.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 41 types of + solar heaters.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 42 types of + solar heaters.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation are provided in 43 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation provided in 44 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation in 45 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same amount of water maximum power generation provided in 46 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation provided in 47 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Energy-saving cycle coalescence engine that has two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation in the vertical downward direction, with a specific critical material approached vertically + a solar heater inclined on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical moving blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 49 stages + Combined with various energy conservation cycles to rotate and rotate solar heater on water surface organ.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical rotor blades gravitational solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + 50 types of vertical rotor blade gravity solar heat turbines + Various energy conservation cycle coalescence engines that incline and rotate solar heaters on the water surface .   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical moving blade gravity solar heat turbines aiming at increasing power generation by accelerating rolling contact with high-temperature water vertically downward + 51 stages + Combined with various energy conservation cycles to rotate and rotate solar heater on water surface organ.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical moving blade gravity solar turbines that aim to increase power generation by heating the air by accelerating the compressed air with water and accelerating the water + various energy storage cycles that rotate the solar heater on the water surface Combined organization.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar heat turbines to be increased are provided in 53 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 54 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that incline and rotate solar heaters on 55 levels with two types of vertical all-blade gravitational solar heat turbines aiming to increase the quantity in 55 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Combined various energy conservation cycle coalescence engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aimed at increasing power generation in 56 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 57 stages and a solar heater is rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air for heating with increased lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downwards + 58 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-blade gravitational solar power turbines aiming to increase power generation by accelerating heavier materials vertically downward + 59 sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high-temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of full-sized blade gravity solar thermal turbines aiming to increase power generation by heating air with compressed air acceleration + 62 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity in 63 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A combination of various energy storage cycle engines that incline and rotate a solar heater on the water surface with two types of vertical-type full-blade gravity solar turbines that aim to increase power generation in 64 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical-type full-blade gravity solar heat turbines aimed at increasing power generation provided in 65 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy-saving cycle coalescence engine, two types of vertical-type full-blade gravitational solar turbines aiming to increase power generation are provided in 66 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that incline and rotate a solar heater on the surface of the water with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 67 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Add two types of full-scale blade gravity solar thermal turbines that aim to increase the amount of accelerated power generation vertically by 68% A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy conservation cycle coalescence engines that rotate the solar heaters on the surface of the water, which are provided in 69 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescence engines that rotate the solar heaters on the water surface with the types provided in 71 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescence engine with 72 types + solar heater that tilts and rotates on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Specific critical substances vertically accelerated to increase the amount of accelerated power generation Two types of full-rotor blade gravity solar heat turbines are installed in 73 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating heavier materials vertically downward + Solar heating heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with hot water vertically downward + Solar power heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Heating the air with compressed air acceleration and aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar heat turbines provided in 77 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on 78 levels with two types of vertical-type full-blade gravity solar heat turbines to be increased in 78 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescing engines in which two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are provided in 79 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are installed in 80 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface, which is provided with 81 types of vertical type full-blade gravity solar thermal turbines aimed at increasing power generation.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy-saving cycle coalescing engine in which two types of vertical all blade gravity solar turbines aiming to increase power generation are provided in 82 stages and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated power generation of specific critical substances vertically downward + Solar heater with 83 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 87 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the quantity are installed in 88 stages, and solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 89 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 90 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy-saving cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 91 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are provided in 92 stages and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 ° C + 93 types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescence engines that rotate the solar heater on the water surface with 94 types of types provided in 94 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that rotates and tilts a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 96 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 97 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air and approached 1200 degrees + Specific critical substances vertically accelerating the amount of accelerated power generation Two types of full-wing blade gravity solar turbines were installed in 98 stages + Solar heater was inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar heat turbines provided in 99 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Solar power heater with two types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + 102 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-rotor gravity gravity solar turbines aiming at increase in 103 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy conservation cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 104 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A combination of various energy storage cycle engines that incline and rotate a solar heater on the surface of water with two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity in 105 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy storage cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are provided in 106 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 107 stages + a combined energy storage cycle engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed to approach 1200 degrees + Vertically moving blade gravity solar thermal turbines aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + Solar power heaters provided in 108 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier substances vertically downward + Solar light Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 112 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical all-blade gravity solar heat turbines aiming to increase the quantity in 113 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are provided in 114 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines aiming at increased power generation in 115 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of full-wing blade gravity solar heat turbines aiming to increase power generation are provided in 116 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 117 stages and rotate solar heaters on the surface of water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 118 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescence engines that rotate the solar heater on the surface of the water with +119 types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward A 120-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 A variety of energy storage cycle coalescing engines that rotate the solar heaters on the water surface with a variety of types in one stage.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Various energy storage cycle coalescing engines that rotate two types of solar heaters on two levels.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar heat turbines are provided in three stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downwards to increase power generation 2 types of vertical rotor blade gravity solar heat turbines in 4 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two vertical wing-gravity gravitational solar thermal turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling hot water vertically downward contact + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines that aim to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines aimed at increasing in eight stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines in 9 stages to increase the amount of power generation and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Various energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase the volume in 10 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) gravity solar power generation heating turbine with 2 to 26 times multi-stage structure and method of accelerating high temperature water vertically downward + hot and cold use prime + long lens to absorb sunlight Collecting linearly on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy conservation cycle coalescence engine that tilts and rotates solar heater on the surface of water with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 11 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface, with two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 12 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air for heating with increased lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical materials vertically downwards + 13 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-sized blade gravity solar thermal turbines aiming to increase power generation by accelerating heavier substances vertically downward + 14 stages of sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 17 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the quantity are provided in 18 stages, + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine that tilts and rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 20 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward Two types of vertical moving blade gravity solar heat turbines aiming to increase power generation are provided in 21 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 22 stages, + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heated air to bring it closer to 1200 degrees + Add two types of vertical rotor blade gravity solar turbines that aim to increase the amount of accelerated generation of specific critical substances vertically downward 23 A combined energy storage cycle engine that rotates the + solar heater on the water surface at an angle.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate the + solar heaters on the water surface with 24 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is a 25-stage + solar energy heater combined with various energy storage cycle that tilts and rotates on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescence engines that rotate the + solar heater on the water surface with 26 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy conservation cycle coalescing engine with 27 types of + solar heaters that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air and approaching 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerating power generation vertically Two types of full rotor blade gravity solar heat turbines are provided in 28 stages + Solar heater is inclined on the water surface Various energy storage cycle combined engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier material vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar turbines provided in 29 stages + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Solar power heater with two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration in 32 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that rotates two types of vertical-type full-rotor gravity gravity solar turbines targeted for increase in 33 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 34 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Various energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity in 35 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are provided in 36 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical moving blade gravity solar turbines aiming to increase power generation are provided in 37 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 39 days + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 42 stages Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increasing the quantity in 43 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical-type full-blade gravity solar turbines that aim to increase power generation in 44 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical all-blade gravity solar heat turbines aiming to increase power generation in 45 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 46 stages, and a solar heater is rotated at an angle on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration The energy storage cycle coalescing engine, in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are provided in 47 stages, and the solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 ° C + 48 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward 48 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy storage cycle coalescing engines that rotate the + solar heater on the surface of the water with 49 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that rotates the + solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescing engines that rotate the solar heater on the water surface with 51 types of solar power heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 52 solar stages + solar heater heated and inclined on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downwards are provided in 53 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heating on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C +2 types of vertical rotor blade gravity solar turbines aimed at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines that aim to increase power generation by heating air with compressed air acceleration + Solar heater with 57 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines to be increased in 58 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines aiming at increased power generation in 59 stages and rotate solar heaters on the surface of water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase the quantity in 60 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming at increased power generation are provided in 61 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that has two types of vertical all-blade gravitational solar heat turbines aiming to increase power generation in 62 stages + a solar heater that tilts and rotates on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the width of the lens and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater with 63 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-sized blade gravity solar thermal turbines aiming to increase power generation by accelerating heavier materials vertically downward + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar light Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 67 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical type moving blade gravity solar heat turbines aiming to increase the quantity in 68 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescing engine in which two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are provided in 69 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of energy storage cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines in 70 stages aiming to increase power generation and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 71 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface, with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 72 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) In order to increase the width of the long lens, compress the heated air and bring it closer to 1200 ° C. + 73 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate 74 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescence engines that rotate the + solar heater on the water surface with the types provided in 76 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 77 types of + solar heaters that rotate and rotate on the surface of the water.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar heat turbines are provided in 78 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air and approaching 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + 79 solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating rolling contact with hot water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that rotates two types of vertical type moving blade gravity solar turbines aiming to increase in 83 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the surface of the water with two types of vertical rotor blade gravity solar turbines aiming at increasing power generation provided in 84 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engine that inclines and rotates a solar heater with 85 types of two types of vertical all-blade gravity solar heat turbines aiming to increase the quantity.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical all-blade gravitational solar heat turbines aiming to increase power generation are installed in 86 stages, and solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of all-rotor blade gravity solar turbines aiming to increase power generation are installed in 87 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar power heaters provided in 88 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical bladed gravitational solar heat turbines aiming to increase power generation by accelerating heavier substances vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 92 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are installed in 93 stages and + solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 94 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 95 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 96 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles in which two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation are installed in 97 stages and a solar heater is rotated on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + 98 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward 98 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy conservation cycle coalescence engines that rotate the solar heaters on the water surface with a variety of types in 99 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescing engines that rotate the solar heater on the water surface, with the types provided in 101 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Various energy storage cycle coalescing engines that rotate two types of solar heaters on the surface of the water, provided in 102 stages.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Specific critical substances vertically accelerated downward to increase the amount of accelerating power generation Two types of vertical rotor blade gravity solar turbines are installed in 103 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward to increase power generation Two types of full-wing blade gravity solar turbines in 104 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 ° C +2 vertical vertical moving blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward contact + 106 solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater with 107 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines to be increased in 108 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar heat turbines aiming at increased power generation in 109 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Various energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity in 110 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Various energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 111 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 112 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air for heating with increasing lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation of specific critical materials vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier substances vertically downward + Sunlight + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + 115 types of two types of full-wing blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + 117 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines aiming to increase the quantity in 118 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy storage cycle coalescence engine in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 119 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar heat turbines aiming to increase power generation in 120 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in one stage + various energy conservation cycle coalescence engines that rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of power generation are provided in two stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 degrees + Add three types of full-scale blade gravity solar turbines that aim to increase the amount of accelerated power generation of specific critical substances vertically downward 3 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate four types of solar heaters on four levels.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heaters on the water surface with 6 types of solar power heaters.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Various energy storage cycle coalescing engines that rotate two types of solar heaters on 7 levels.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of acceleration power generation vertically Two types of full-wing blade gravity solar turbines are provided in 8 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling water vertically downward contact + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating and rolling hot water vertically downward contact + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Solar power heater with 12 types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + solar heating Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravitational solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 increase power generation amount + heat retention increase ball lift device (2F) use water storage and increase + long lens width increase Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to accelerate the amount of accelerated power generation Two types of vertical rotor blade gravity solar heat turbines are provided in 13 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) 2 to 26 times gravitational solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 increase power generation amount + heat retention increase ball lift device (2F) use water storage and increase + long lens width increase Compressed heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) 2 to 26 times gravitational solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 increase power generation amount + heat retention increase ball lift device (2F) use water storage and increase + long lens width increase Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) 2 to 26 times gravitational solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 increase power generation amount + heat retention increase ball lift device (2F) use water storage and increase + long lens width increase Compressed heated air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling hot water vertically downward contact + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) 2 to 26 times gravitational solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 increase power generation amount + heat retention increase ball lift device (2F) use water storage and increase + long lens width increase Compressing heated air and bringing it closer to 1200 degrees + Solar-heated heater with two types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + 17 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) gravity solar power generation heating turbine with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use priming + solar heat absorption material with long lens + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Using the long lens to increase the width Compressing the heated air to approach 1200 degrees A variety of energy conservation cycle coalescence engines that rotate the solar heater on the water surface with 18 types of 2 types of vertical all blade gravity solar heat turbines to aim at.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase the volume in 19 stages and rotate solar heaters on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity Two types of energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming for increase in 20 stages.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar heat turbines aiming to increase the quantity in 21 stages and rotate the solar heater on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Two energy saving cycle coalescing engines with two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 22 stages + rotating solar heaters on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engine that rotates two types of vertical all-blade gravity solar heat turbines aimed at 23 stages + a solar heater inclined on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar turbines in 24 stages to increase the quantity and rotate the solar heater on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical all blade gravity solar heat turbines aiming for increase in 25 stages.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are provided in 26 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Various energy storage cycle coalescing engines with two types of vertical rotor blade gravity solar turbines aiming to increase power generation provided in 27 stages + solar heaters tilted and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 28 stages of two types of full-sized blade gravity solar turbines aiming at increasing the amount of accelerated power generation in the vertical direction + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate and rotate + solar heaters provided in 30 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescence engine that rotates the + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heaters on the surface of the water with the types provided in 32 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it close to 1200 degrees + 33 types of two types of full-rotor gravity gravity solar turbines aiming to increase the amount of accelerated power generation in the vertical direction + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 34 stages of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 35 types of two types of full-sized blade gravity solar turbines aiming to increase the amount of accelerated power generation in the vertical direction + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 36 stages of two types of full-sized bladed gravitational solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to bring it closer to 1200 degrees + 37 types of two types of full-rotor gravity gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is a 38-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is a 39-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is a 41-stage + solar energy heater that combines and rotates various energy conservation cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heaters installed in 43 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heaters on the water surface at 44 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters installed in 45 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters installed in 46 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters installed in 47 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is a 48-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is an energy storage cycle coalescence engine that rotates and tilts a solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescence engine that rotates the + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescence engines that rotate the solar heater on the water surface with the types provided in 53 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate 54 types of solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate 55 types of solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescence engines that rotate 56 types of solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescence engines that rotate the solar heaters on the surface of the water with 57 types in + stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Two types of full-type bladed gravitational solar turbines aiming at the same maximum amount of power generation provided in 58 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Two types of all-type rotor blade gravity solar turbines aiming at the same water maximum power generation provided in 59 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation provided in 60 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation in 61 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Two types of full-sized bladed gravitational solar turbines aiming at the same water maximum power generation in 62 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees Combining various energy storage cycle engines that have two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation in the vertical direction.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 64 stages + Combined with various energy conservation cycles to rotate and rotate solar heater on water surface organ.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + 65 types of vertical moving blade gravity solar heat turbines + various energy conservation cycle coalescence engines that rotate and rotate solar heaters on the water surface .   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating rolling contact with hot water vertically downward + 66 stages + Combined with various energy conservation cycles to rotate and rotate solar heater on water surface organ.   Turbine blade cross section (4X) gravity solar power heating turbine with 2 to 26 times multi-stage structure and method of accelerating high temperature water vertically downward + heat and cold use prime + long lens to absorb sunlight Collect linearly on the material + Increase the head with the warming-increasing sphere lifting device (2F) + Use the warming-increasing sphere lifting device (2F) to store and raise water + Increase the width of the long lens Compress the heated air to 1200 degrees Approaching + Heating the air with compressed air acceleration and aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar heat turbines are provided in 67 stages + Various energy conservation cycles in which a solar heater is tilted and rotated on the water surface Combined organization.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar heat turbines to be increased are provided in 68 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar turbines in 69 stages, aiming to increase power generation, and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blades gravitational solar heat turbines aiming to increase quantity in 70 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 71 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is an engine that combines two types of energy storage cycle, in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are installed in 72 stages, and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) Gravity solar power generation generating heating turbine blade with 2 to 26 times the heating method + Accelerating by increasing the output sphere (2E) as a small diameter + Compressing the long lens width increasing heating air 2 types of vertical moving blade gravity solar turbines aiming to increase the amount of accelerated power generation vertically downward for specific critical materials + 73 stages + various energy conservation cycles in which solar heaters are tilted and rotated on the water surface Combined organization.   Turbine blade cross section (4X) Gravity solar power generation generating heating turbine blade with 2 to 26 times the heating method + Accelerating by increasing the output sphere (2E) as a small diameter + Compressing the long lens width increasing heating air 2 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 74 stages + various types of solar heaters tilted and rotated on the water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) Gravity solar power generation generating heating turbine blade with 2 to 26 times the heating method + Accelerating by increasing the output sphere (2E) as a small diameter + Compressing the long lens width increasing heating air +2 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Various energy to tilt and rotate solar heater on water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) Gravity solar power generation generating heating turbine blade with 2 to 26 times the heating method + Accelerating by increasing the output sphere (2E) as a small diameter + Compressing the long lens width increasing heating air +2 types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with hot water vertically downward +76 stages + various types of solar heaters tilted and rotated on the water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) Gravity solar power generation generating heating turbine blade with 2 to 26 times the heating method + Accelerating by increasing the output sphere (2E) as a small diameter + Compressing the long lens width increasing heating air +2 types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + Rotating a solar heater on the water surface Various energy conservation cycle coalescence engine.   A structure and method for accelerating specific critical materials vertically downward by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Accelerated turbine drive with a small diameter of the power increasing sphere (2E) + Long Compressing the heated air to increase the lens width and approaching 1200 degrees + Vertically moving blade gravity solar thermal turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downwards + 78 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   A structure and method for accelerating specific critical materials vertically downward by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Accelerated turbine drive with a small diameter of the power increasing sphere (2E) + Long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 79 stages of sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating specific critical materials vertically downward by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Accelerated turbine drive with a small diameter of the power increasing sphere (2E) + Long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating specific critical materials vertically downward by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Accelerated turbine drive with a small diameter of the power increasing sphere (2E) + Long Increased lens width Compresses heated air and approaches 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   A structure and method for accelerating specific critical materials vertically downward by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Accelerated turbine drive with a small diameter of the power increasing sphere (2E) + Long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 82 stages Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 degrees + Add two types of vertical-type full-blade gravity solar turbines aiming to increase the amount of accelerated power generation in the vertically downward direction A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescence engines that rotate the + solar heater on the water surface with 84 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 A variety of energy conservation cycle coalescing engines that rotate 86 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy conservation cycle coalescence engine with 87 types + solar heating heater tilted on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar turbines are installed in 88 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier material vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar heat turbines provided in 89 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with high temperature water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Heating air with compressed air acceleration and aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar turbines provided in 92 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical all-blade gravitational solar turbines to increase in 93 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 94 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity installed in 95 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescing engines in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are installed in 96 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 97 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhance the lens width by heating the air and bring it closer to 1200 ° C. + Two types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier substances vertically downward + Sunlight + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aimed at increasing power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar light Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + 102 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming to increase the quantity in 103 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 104 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Combined various energy conservation cycle coalescence engines with two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation provided in 105 stages and rotating solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 106 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration The energy storage cycle coalescing engine, in which two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 107 stages and the solar heater is tilted and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Add two types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated power generation in the vertically downward direction with specific critical substances 108 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy storage cycle coalescing engines that rotate 109 types of solar heaters on 109 levels.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 111 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescence engine with 112 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Specific critical substances vertically accelerating the amount of acceleration power generation aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines provided in 113 stages + Solar heater heated on the surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + 114 solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross-section (4X) structure and method of gravitational solar power generation 2 to 26 times + accelerating various battery-powered vehicles + warming and increasing sphere lifting device (2F) to use and store water + increase the width of the long lens Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy conservation cycle coalescing engine that is tilted and rotated by   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of full-sized bladed gravitational solar heat turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + 116 solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compress the heated air and bring it close to 1200 degrees + Heating the air with compressed air acceleration and aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar turbines provided in 117 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater with 118 types of two types of full-scale blade-driven gravitational solar turbines to be increased in 118 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines in 119 stages, aiming to increase power generation, and rotate solar solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lifting device (2F) to save and use water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Power generation as accelerated rolling contact with water vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increasing quantity in 120 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar turbines aiming at increased power generation in a single stage and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles that rotates two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in two stages and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and store water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar power heaters provided in 3 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 7 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are installed in 8 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar turbines in 10 stages aiming to increase the amount of power generation and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical all-blade gravity solar heat turbines aiming to increase power generation are installed in 11 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are provided in 12 stages + a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and compress the heated air to approach 1200 degrees + Add two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation in the vertical downward direction with specific critical substances 13 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate 14 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is a 15-stage + solar energy heater that combines and rotates various energy conservation cycles on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescing engines that rotate 16 solar heaters on the water surface with 16 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 17 types of + solar heaters that rotate and rotate on the surface of the water.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar heat turbines are provided in 18 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines to be increased in 23 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescing engines, in which two types of vertical-type full-blade gravitational solar heat turbines aiming at increased power generation are provided in 24 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are provided in 25 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescing engines, in which two types of vertical all-blade gravity solar thermal turbines aiming at increased power generation are provided in 26 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 27 stages + a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressed air with increased lens width heating to approach 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + 28 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 29 sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward are provided in 31 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Water is supplied by accelerating compressed air to heat the air and aiming to increase power generation Two types of full blade gravity solar thermal turbines are provided in 32 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines aiming to increase the quantity in 33 stages + rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aimed at increasing power generation in 34 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar turbines in 35 stages to increase the amount of power generation and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical type moving blade gravity solar heat turbines aiming to increase power generation are provided in 36 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is an engine that combines two types of energy conservation cycle, in which two types of vertical-type full-blade gravitational solar turbines aiming to increase power generation are provided in 37 stages, and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 ° C + 38 types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy storage cycle coalescing engines that rotate 39 types of solar heaters on 39 levels.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 41 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 42 types of solar heater + rotating on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Specific critical substances vertically accelerated downward to increase the amount of accelerated power generation Two types of vertical rotor blade gravity solar heat turbines are provided in 43 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier material vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar turbines provided in 44 stages + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Water is accelerated vertically downward and contacted by two types of vertical rotor blade gravity solar heat turbines aiming at increased power generation in 45 stages + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Heating air with compressed air acceleration and aiming to increase the amount of power generation Two vertical rotor blade gravity solar turbines provided in 47 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical all-blade gravity solar turbines targeted for increase are provided in 48 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Combined with various energy storage cycle engines, which are provided with 49 types of vertical-type full-blade gravity solar turbines that aim to increase the amount of power generation, and + solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar heat turbines aiming to increase the quantity in 50 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A combination of various energy conservation cycle engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 51 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that tilts and rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the width of the lens and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward + 56 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 57 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar thermal turbines aiming to increase the quantity in 58 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined engine with various energy conservation cycles in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are installed in 59 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation are provided in 60 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy-saving cycle coalescence engine, two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation are provided in 61 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 62 stages + a combined energy storage cycle engine that rotates a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Add two types of vertical rotor blade gravity solar turbines that aim to increase the amount of accelerated power generation vertically by increasing specific critical substances 63 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 64 types of solar power heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescing engine that rotates the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heaters on the water surface with the types provided in 66 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 67 types of solar power heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full rotor blade gravity solar heat turbines are provided in 68 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar heat turbines are installed in 69 stages + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater with 72 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar heat turbines aimed at increase in 73 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Combined various energy storage cycle engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aimed at increasing power generation provided in 74 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that incline and rotate a solar heater on the water surface with two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity installed in 75 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescing engines with two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation provided in 76 stages and rotating solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 77 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air to increase the lens width and approaching 1200 degrees + Vertically moving blade gravity solar thermal turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downwards + 78 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 79 stages of sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 82 stages Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are provided in 83 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy storage cycle coalescing engine in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are installed in 84 stages and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 85 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 86 stages, and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are installed in 87 stages, and solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + 88 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward 88 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy conservation cycle coalescence engine that rotates the solar heater on the water surface with a variety of types in 89 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescence engines that rotate the solar heater on the water surface with the types provided in 91 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 92 types of solar power heaters that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Inclined solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward to increase power generation 2 types of vertical rotor blade gravity solar heat turbines installed in 94 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling hot water vertically downward contact + Solar power heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Heating air with compressed air acceleration and aiming to increase power generation Two types of vertical bladed solar gravity turbines with 97 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aimed for increase in 98 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 99 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increasing the quantity in a 100-stage + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 101 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy storage cycle coalescing engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 102 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravitational solar turbines aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + Solar heater with 103 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + 106 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 107 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines with two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of solar turbines and 108 solar stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 109 stages + various energy storage cycle coalescing engines that rotate and tilt solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A combination of various energy conservation cycle engines that have two types of vertical all-blade gravitational solar turbines aiming to increase power generation, and are provided with 110 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 111 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar turbines in 112 stages to increase power generation and rotate the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy conservation cycle coalescence engines that rotate 114 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward + 115 energy-saving cycle coalescing engines that rotate and rotate solar heaters on the surface of water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 A variety of energy storage cycle coalescing engines that rotate 116 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescence engine with 117 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 ° C + 2 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical materials vertically downward + Inclined solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing the heated air to approach 1200 degrees + 119 stages of two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating and rolling hot water vertically downward contact + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy storage cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines to be increased in three stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in four stages, and solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the quantity are installed in five stages, and solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Various energy storage cycle coalescing engines that incline and rotate a solar heater on the surface of the water with two types of vertical-type full-blade gravity solar heat turbines aimed at increasing power generation in six stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is an engine that combines two types of energy storage cycle, in which two types of full-blade gravity solar turbines aiming to increase power generation are installed in seven stages, and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed to approach 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downwards + 8 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + 12 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical all-blade gravitational solar turbines aiming to increase the quantity are provided in 13 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines, in which two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation are provided in 14 stages + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engine that rotates two types of vertical rotor blade gravity solar turbines aiming at increasing power generation in 15 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically As an energy storage cycle coalescence engine, two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 16 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy storage cycle coalescing engines with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 17 stages + rotating solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 ° C + 18 types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy conservation cycle coalescence engines that rotate the solar heater on the surface of the water, which is provided in 19 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescing engine that inclines and rotates the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 21 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 22 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar turbines are installed in 23 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 degrees + Water is accelerated vertically downward, and two types of vertical rotor blade gravity solar turbines aiming at increased power generation are provided in 25 stages + Solar heater on the water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling high temperature water vertically downward contact + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Water-driven air acceleration by accelerating compressed air to increase the amount of power generation Two vertical rotor blade gravity solar turbines provided in 27 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air Compressed and approached 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation Two types of vertical rotor blade gravity solar heat turbines provided in 28 stages + Various types of solar heaters tilted and rotated on the water surface Energy conservation cycle coalescence engine.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 29 degrees of solar heating heaters are inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air Compressed and brought close to 1200 degrees + Water was accelerated vertically downward and contacted by two types of vertical rotor blade gravity solar heat turbines aimed at increasing power generation in 30 stages + Solar heater was tilted and rotated on the water surface Various energy conservation cycle coalescing engines.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling high-temperature water vertically downward and contacting them + Inclining solar heater on water surface Various energy storage cycle coalescing engine to rotate.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of vertical rotor blade gravity solar turbines that aim to increase the amount of power generation by heating the air with compressed air acceleration + 32 stages + solar heater on the water surface Various energy storage cycle coalescing engines that rotate at an angle.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air Compressed to approach 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation 2 types of full-rotor blade gravity solar heat turbines provided in 33 stages + Various types of solar heaters tilted and rotated on the water surface Energy conservation cycle coalescence engine.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 34 stages + solar heater inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air Compressed and approached 1200 degrees + Water was accelerated vertically downward and contacted, and two types of vertical rotor blade gravity solar turbines aiming at increased power generation were installed in 35 stages + Solar heater was inclined and rotated on the water surface Various energy conservation cycle coalescing engines.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air Compressed and brought close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Inclined solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating the air with compressed air acceleration + 37 degrees + solar heater on the water surface Various energy storage cycle coalescing engines that rotate at an angle.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + 38 stages of 2 types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated power generation in the vertically downward direction + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is a 39-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters installed in 40 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is a 41-stage + solar energy heater that combines and rotates various energy conservation cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 42 types of + solar heaters.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 43 types of 2 types of full-rotor gravity gravity solar turbines aiming to increase the amount of acceleration of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + 44 stages of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated power generation vertically + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the length of the long lens and compress the heated air to approach 1200 degrees + 45 stages of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 46 stages of two types of full-sized blade gravity solar turbines aiming to increase the amount of accelerated power generation in the vertical direction + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 47 types of two types of full-rotor gravity gravity solar turbines aiming to increase the amount of accelerated power generation in the vertical direction + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is a 48-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is an energy storage cycle coalescence engine that rotates and tilts a solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescence engine that rotates the + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters on the water surface in 53 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heater on the water surface at 54 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters installed in 55 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that incline and rotate + solar heaters on 56 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Combined engine with various energy storage cycles that inclines and rotates + solar heaters on 57 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is a 58-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that rotates the + solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that inclines and rotates the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration A variety of energy storage cycle coalescing engines that rotate the solar heater on the water surface, with the types provided in 63 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 64 types of solar power heaters.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate 65 types of solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heaters on the water surface with the types provided in 66 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 67 types of + solar power heaters.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation provided in 68 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation provided in 69 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation in 70 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air to bring it closer to 1200 degrees + Provide two types of vertical rotor blade gravity solar heat turbines aiming for the same maximum water generation amount in 71 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation are installed in 72 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head as much as possible with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to raise and store the water + Use the long lens to increase the width of the heated air 2 types of vertical moving blade gravity solar turbines aiming to increase the amount of accelerated power generation vertically downward for specific critical materials + 73 stages + various energy conservation cycles in which solar heaters are tilted and rotated on the water surface Combined organization.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head as much as possible with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to raise and store the water + Use the long lens to increase the width of the heated air 2 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 74 stages + various types of solar heaters tilted and rotated on the water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head as much as possible with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to raise and store the water + Use the long lens to increase the width of the heated air +2 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Various energy to tilt and rotate solar heater on water surface Conservation cycle coalescence organization.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head as much as possible with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to raise and store the water + Use the long lens to increase the width of the heated air +2 types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with hot water vertically downward +76 stages + various types of solar heaters tilted and rotated on the water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head as much as possible with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to raise and store the water + Use the long lens to increase the width of the heated air +2 types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + Rotating a solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on 78 levels with two types of vertical-type full-blade gravity solar heat turbines to be increased in 78 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescing engines in which two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are provided in 79 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are installed in 80 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface, which is provided with 81 types of vertical type full-blade gravity solar thermal turbines aimed at increasing power generation.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy-saving cycle coalescing engine in which two types of vertical all blade gravity solar turbines aiming to increase power generation are provided in 82 stages and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated power generation of specific critical substances vertically downward + Solar heater with 83 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 87 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the quantity are installed in 88 stages, and solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 89 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 90 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy-saving cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 91 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are provided in 92 stages and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 ° C + 93 types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescence engines that rotate the solar heater on the water surface with 94 types of types provided in 94 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that rotates and tilts a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 96 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 97 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhance the lens width by heating the air and bring it closer to 1200 ° C. + Two types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier substances vertically downward + Sunlight + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aimed at increasing power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar light Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + 102 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming to increase the quantity in 103 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 104 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Combined various energy conservation cycle coalescence engines with two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation provided in 105 stages and rotating solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 106 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration The energy storage cycle coalescing engine, in which two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 107 stages and the solar heater is tilted and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Add two types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated power generation in the vertically downward direction with specific critical substances 108 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy storage cycle coalescing engines that rotate 109 types of solar heaters on 109 levels.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 111 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescence engine with 112 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Specific critical substances vertically accelerating the amount of acceleration power generation aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines provided in 113 stages + Solar heater heated on the surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + 114 solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross-section (4X) structure and method of gravitational solar power generation 2 to 26 times + accelerating various battery-powered vehicles + warming and increasing sphere lifting device (2F) to use and store water + increase the width of the long lens Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy conservation cycle coalescing engine that is tilted and rotated by   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of full-sized bladed gravitational solar heat turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + 116 solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compress the heated air and bring it close to 1200 degrees + Heating the air with compressed air acceleration and aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar turbines provided in 117 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater with 118 types of two types of full-scale blade-driven gravitational solar turbines to be increased in 118 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines in 119 stages, aiming to increase power generation, and rotate solar solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lifting device (2F) to save and use water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Power generation as accelerated rolling contact with water vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increasing quantity in 120 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar turbines aiming at increased power generation in a single stage and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles that rotates two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in two stages and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and store water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar power heaters provided in 3 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 7 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are installed in 8 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar turbines in 10 stages aiming to increase the amount of power generation and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical all-blade gravity solar heat turbines aiming to increase power generation are installed in 11 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are provided in 12 stages + a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and compress the heated air to approach 1200 degrees + Add two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation in the vertical downward direction with specific critical substances 13 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate 14 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is a 15-stage + solar energy heater that combines and rotates various energy conservation cycles on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescing engines that rotate 16 solar heaters on the water surface with 16 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 17 types of + solar heaters that rotate and rotate on the surface of the water.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar heat turbines are provided in 18 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines to be increased in 23 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescing engines, in which two types of vertical-type full-blade gravitational solar heat turbines aiming at increased power generation are provided in 24 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are provided in 25 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescing engines, in which two types of vertical all-blade gravity solar thermal turbines aiming at increased power generation are provided in 26 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 27 stages + a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressed air with increased lens width heating to approach 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + 28 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 29 sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward are provided in 31 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Water is supplied by accelerating compressed air to heat the air and aiming to increase power generation Two types of full blade gravity solar thermal turbines are provided in 32 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines aiming to increase the quantity in 33 stages + rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aimed at increasing power generation in 34 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar turbines in 35 stages to increase the amount of power generation and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical type moving blade gravity solar heat turbines aiming to increase power generation are provided in 36 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is an engine that combines two types of energy conservation cycle, in which two types of vertical-type full-blade gravitational solar turbines aiming to increase power generation are provided in 37 stages, and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 ° C + 38 types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy storage cycle coalescing engines that rotate 39 types of solar heaters on 39 levels.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 41 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 42 types of solar heater + rotating on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Specific critical substances vertically accelerated downward to increase the amount of accelerated power generation Two types of vertical rotor blade gravity solar heat turbines are provided in 43 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier material vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar turbines provided in 44 stages + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Water is accelerated vertically downward and contacted by two types of vertical rotor blade gravity solar heat turbines aiming at increased power generation in 45 stages + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Heating air with compressed air acceleration and aiming to increase the amount of power generation Two vertical rotor blade gravity solar turbines provided in 47 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical all-blade gravity solar turbines targeted for increase are provided in 48 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Combined with various energy storage cycle engines, which are provided with 49 types of vertical-type full-blade gravity solar turbines that aim to increase the amount of power generation, and + solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar heat turbines aiming to increase the quantity in 50 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A combination of various energy conservation cycle engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 51 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that tilts and rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the width of the lens and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward + 56 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 57 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar thermal turbines aiming to increase the quantity in 58 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined engine with various energy conservation cycles in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are installed in 59 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation are provided in 60 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy-saving cycle coalescence engine, two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation are provided in 61 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 62 stages + a combined energy storage cycle engine that rotates a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Add two types of vertical rotor blade gravity solar turbines that aim to increase the amount of accelerated power generation vertically by increasing specific critical substances 63 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 64 types of solar power heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescing engine that rotates the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heaters on the water surface with the types provided in 66 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 67 types of solar power heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full rotor blade gravity solar heat turbines are provided in 68 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar heat turbines are installed in 69 stages + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater with 72 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar heat turbines aimed at increase in 73 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Combined various energy storage cycle engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aimed at increasing power generation provided in 74 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that incline and rotate a solar heater on the water surface with two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity installed in 75 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescing engines with two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation provided in 76 stages and rotating solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 77 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air to increase the lens width and approaching 1200 degrees + Vertically moving blade gravity solar thermal turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downwards + 78 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 79 stages of sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 82 stages Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are provided in 83 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy storage cycle coalescing engine in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are installed in 84 stages and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 85 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 86 stages, and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are installed in 87 stages, and solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + 88 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward 88 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy conservation cycle coalescence engine that rotates the solar heater on the water surface with a variety of types in 89 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescence engines that rotate the solar heater on the water surface with the types provided in 91 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 92 types of solar power heaters that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Inclined solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward to increase power generation 2 types of vertical rotor blade gravity solar heat turbines installed in 94 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling hot water vertically downward contact + Solar power heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Heating air with compressed air acceleration and aiming to increase power generation Two types of vertical bladed solar gravity turbines with 97 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) gravity solar power heating turbine with 2 to 26 times multi-stage structure and method of accelerating high temperature water vertically downward + heat and cold use prime + long lens to absorb sunlight Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical rotor blade gravity solar turbines to increase in 98 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 99 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increasing the quantity in a 100-stage + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 101 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy storage cycle coalescing engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 102 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravitational solar turbines aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + Solar heater with 103 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + 106 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 107 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines with two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of solar turbines and 108 solar stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 109 stages + various energy storage cycle coalescing engines that rotate and tilt solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A combination of various energy conservation cycle engines that have two types of vertical all-blade gravitational solar turbines aiming to increase power generation, and are provided with 110 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 111 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar turbines in 112 stages to increase power generation and rotate the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy conservation cycle coalescence engines that rotate 114 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward + 115 energy-saving cycle coalescing engines that rotate and rotate solar heaters on the surface of water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 A variety of energy storage cycle coalescing engines that rotate 116 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescence engine with 117 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 ° C + 2 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical materials vertically downward + Inclined solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing the heated air to approach 1200 degrees + 119 stages of two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating and rolling hot water vertically downward contact + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy storage cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines to be increased in three stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in four stages, and solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the quantity are installed in five stages, and solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Various energy storage cycle coalescing engines that incline and rotate a solar heater on the surface of the water with two types of vertical-type full-blade gravity solar heat turbines aimed at increasing power generation in six stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is an engine that combines two types of energy storage cycle, in which two types of full-blade gravity solar turbines aiming to increase power generation are installed in seven stages, and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed to approach 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downwards + 8 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + 12 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical all-blade gravitational solar turbines aiming to increase the quantity are provided in 13 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines, in which two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation are provided in 14 stages + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engine that rotates two types of vertical rotor blade gravity solar turbines aiming at increasing power generation in 15 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically As an energy storage cycle coalescence engine, two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 16 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy storage cycle coalescing engines with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 17 stages + rotating solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 ° C + 18 types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy conservation cycle coalescence engines that rotate the solar heater on the surface of the water, which is provided in 19 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescing engine that inclines and rotates the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 21 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 22 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar turbines are installed in 23 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 degrees + Water is accelerated vertically downward, and two types of vertical rotor blade gravity solar turbines aiming at increased power generation are provided in 25 stages + Solar heater on the water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling high temperature water vertically downward contact + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Water-driven air acceleration by accelerating compressed air to increase the amount of power generation Two vertical rotor blade gravity solar turbines provided in 27 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees This is a combined energy storage cycle engine with two types of full-rotor-gravity solar power turbines installed in 28 stages and rotating a solar heater on the surface of the water.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming for   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar heat turbines aimed at 30 stages + a solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines aiming at the +31 solar heaters on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power generation vertically downward + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity A variety of energy conservation cycle coalescing engines that rotate two types of vertical rotor blade gravity solar heat turbines aiming for increase in 32 stages and rotate solar heaters on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees This is a combined energy storage cycle engine that tilts and rotates a solar heater with two types of full-blade gravity solar thermal turbines in 33 stages.   Configuration and method for accelerating the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power generation vertically downward + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming at   Configuration and method for accelerating the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power generation vertically downward + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical all-blade gravitational solar turbines aimed at 35 stages and rotate solar heaters on the surface of the water.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming at   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increase in 37 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + 38 stages of 2 types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated power generation in the vertically downward direction + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is a 39-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters installed in 40 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is a 41-stage + solar energy heater that combines and rotates various energy conservation cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 42 types of + solar heaters.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 43 types of 2 types of full-rotor gravity gravity solar turbines aiming to increase the amount of acceleration of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + 44 stages of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated power generation vertically + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the length of the long lens and compress the heated air to approach 1200 degrees + 45 stages of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 46 stages of two types of full-sized blade gravity solar turbines aiming to increase the amount of accelerated power generation in the vertical direction + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 47 types of two types of full-rotor gravity gravity solar turbines aiming to increase the amount of accelerated power generation in the vertical direction + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is a 48-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is an energy storage cycle coalescence engine that rotates and tilts a solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescence engine that rotates the + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters on the water surface in 53 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heater on the water surface at 54 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters installed in 55 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that incline and rotate + solar heaters on 56 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Combined engine with various energy storage cycles that inclines and rotates + solar heaters on 57 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is a 58-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that rotates the + solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that inclines and rotates the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration A variety of energy storage cycle coalescing engines that rotate the solar heater on the water surface, with the types provided in 63 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 64 types of solar power heaters.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate 65 types of solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heaters on the water surface with the types provided in 66 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 67 types of + solar power heaters.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation provided in 68 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation provided in 69 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation in 70 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air to bring it closer to 1200 degrees + Provide two types of vertical rotor blade gravity solar heat turbines aiming for the same maximum water generation amount in 71 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation are installed in 72 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Energy-saving cycle coalescing engine with two types of vertical moving blade gravity solar heat turbines aiming to increase the amount of accelerated power generation in the vertical downward direction.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees Two types of vertical rotor blade gravity solar turbines that aim at increasing power generation by accelerating heavier materials vertically downwards are provided in 74 stages + Combined with various energy conservation cycles that rotate and rotate solar heaters on the water surface organ.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical moving blade gravity solar heat turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + 75 types of vertical moving blade gravity solar heat turbines + various energy conservation cycle coalescence engines that incline and rotate solar heaters on the water surface .   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with hot water vertically downward + 76 stages + Combined with various energy conservation cycles to rotate and rotate solar heater on water surface organ.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 77 stages + Various energy storage cycles that tilt and rotate solar heaters on the water surface Combined organization.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on 78 levels with two types of vertical-type full-blade gravity solar heat turbines to be increased in 78 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescing engines in which two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are provided in 79 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are installed in 80 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface, which is provided with 81 types of vertical type full-blade gravity solar thermal turbines aimed at increasing power generation.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy-saving cycle coalescing engine in which two types of vertical all blade gravity solar turbines aiming to increase power generation are provided in 82 stages and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated power generation of specific critical substances vertically downward + Solar heater with 83 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 87 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the quantity are installed in 88 stages, and solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 89 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 90 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy-saving cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 91 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are provided in 92 stages and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 ° C + 93 types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescence engines that rotate the solar heater on the water surface with 94 types of types provided in 94 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that rotates and tilts a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 96 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 97 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air and approached 1200 degrees + Specific critical substances vertically accelerating the amount of accelerated power generation Two types of full-wing blade gravity solar turbines were installed in 98 stages + Solar heater was inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar heat turbines provided in 99 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Solar power heater with two types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + 102 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-rotor gravity gravity solar turbines aiming at increase in 103 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy conservation cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 104 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A combination of various energy storage cycle engines that incline and rotate a solar heater on the surface of water with two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity in 105 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy storage cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are provided in 106 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 107 stages + a combined energy storage cycle engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed to approach 1200 degrees + Vertically moving blade gravity solar thermal turbines aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + Solar power heaters provided in 108 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier substances vertically downward + Solar light Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 112 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical all-blade gravity solar heat turbines aiming to increase the quantity in 113 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are provided in 114 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines aiming at increased power generation in 115 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of full-wing blade gravity solar heat turbines aiming to increase power generation are provided in 116 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 117 stages and rotate solar heaters on the surface of water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 118 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescence engines that rotate the solar heater on the surface of the water with +119 types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward A 120-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 A variety of energy storage cycle coalescing engines that rotate the solar heaters on the water surface with a variety of types in one stage.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Various energy storage cycle coalescing engines that rotate two types of solar heaters on two levels.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar heat turbines are provided in three stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downwards to increase power generation 2 types of vertical rotor blade gravity solar heat turbines in 4 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two vertical wing-gravity gravitational solar thermal turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling hot water vertically downward contact + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines that aim to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines aimed at increasing in eight stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines in 9 stages to increase the amount of power generation and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Various energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase the volume in 10 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) gravity solar power generation heating turbine with 2 to 26 times multi-stage structure and method of accelerating high temperature water vertically downward + hot and cold use prime + long lens to absorb sunlight Collecting linearly on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy conservation cycle coalescence engine that tilts and rotates solar heater on the surface of water with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 11 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface, with two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 12 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air for heating with increased lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical materials vertically downwards + 13 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-sized blade gravity solar thermal turbines aiming to increase power generation by accelerating heavier substances vertically downward + 14 stages of sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 17 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the quantity are provided in 18 stages, + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine that tilts and rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 20 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward Two types of vertical moving blade gravity solar heat turbines aiming to increase power generation are provided in 21 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 22 stages, + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heated air to bring it closer to 1200 degrees + Add two types of vertical rotor blade gravity solar turbines that aim to increase the amount of accelerated generation of specific critical substances vertically downward 23 A combined energy storage cycle engine that rotates the + solar heater on the water surface at an angle.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate the + solar heaters on the water surface with 24 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is a 25-stage + solar energy heater combined with various energy storage cycle that tilts and rotates on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescence engines that rotate the + solar heater on the water surface with 26 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy conservation cycle coalescing engine with 27 types of + solar heaters that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air and approaching 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerating power generation vertically Two types of full rotor blade gravity solar heat turbines are provided in 28 stages + Solar heater is inclined on the water surface Various energy storage cycle combined engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier material vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar turbines provided in 29 stages + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Solar power heater with two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration in 32 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that rotates two types of vertical-type full-rotor gravity gravity solar turbines targeted for increase in 33 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 34 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Various energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity in 35 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are provided in 36 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical moving blade gravity solar turbines aiming to increase power generation are provided in 37 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 39 days + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 42 stages Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increasing the quantity in 43 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical-type full-blade gravity solar turbines that aim to increase power generation in 44 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical all-blade gravity solar heat turbines aiming to increase power generation in 45 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 46 stages, and a solar heater is rotated at an angle on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration The energy storage cycle coalescing engine, in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are provided in 47 stages, and the solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 ° C + 48 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward 48 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy storage cycle coalescing engines that rotate the + solar heater on the surface of the water with 49 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that rotates the + solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescing engines that rotate the solar heater on the water surface with 51 types of solar power heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 52 solar stages + solar heater heated and inclined on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downwards are provided in 53 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heating on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C +2 types of vertical rotor blade gravity solar turbines aimed at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines that aim to increase power generation by heating air with compressed air acceleration + Solar heater with 57 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines to be increased in 58 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines aiming at increased power generation in 59 stages and rotate solar heaters on the surface of water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase the quantity in 60 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming at increased power generation are provided in 61 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that has two types of vertical all-blade gravitational solar heat turbines aiming to increase power generation in 62 stages + a solar heater that tilts and rotates on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the width of the lens and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater with 63 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-sized blade gravity solar thermal turbines aiming to increase power generation by accelerating heavier materials vertically downward + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar light Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 67 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical type moving blade gravity solar heat turbines aiming to increase the quantity in 68 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescing engine in which two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are provided in 69 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of energy storage cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines in 70 stages aiming to increase power generation and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 71 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface, with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 72 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) In order to increase the width of the long lens, compress the heated air and bring it closer to 1200 ° C. + 73 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate 74 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescence engines that rotate the + solar heater on the water surface with the types provided in 76 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 77 types of + solar heaters that rotate and rotate on the surface of the water.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar heat turbines are provided in 78 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air and approaching 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + 79 solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating rolling contact with hot water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that rotates two types of vertical type moving blade gravity solar turbines aiming to increase in 83 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the surface of the water with two types of vertical rotor blade gravity solar turbines aiming at increasing power generation provided in 84 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engine that inclines and rotates a solar heater with 85 types of two types of vertical all-blade gravity solar heat turbines aiming to increase the quantity.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical all-blade gravitational solar heat turbines aiming to increase power generation are installed in 86 stages, and solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of all-rotor blade gravity solar turbines aiming to increase power generation are installed in 87 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar power heaters provided in 88 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical bladed gravitational solar heat turbines aiming to increase power generation by accelerating heavier substances vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 92 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are installed in 93 stages and + solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 94 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 95 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 96 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles in which two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation are installed in 97 stages and a solar heater is rotated on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + 98 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward 98 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy conservation cycle coalescence engines that rotate the solar heaters on the water surface with a variety of types in 99 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescing engines that rotate the solar heater on the water surface, with the types provided in 101 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Various energy storage cycle coalescing engines that rotate two types of solar heaters on the surface of the water, provided in 102 stages.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Specific critical substances vertically accelerated downward to increase the amount of accelerating power generation Two types of vertical rotor blade gravity solar turbines are installed in 103 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward to increase power generation Two types of full-wing blade gravity solar turbines in 104 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 ° C +2 vertical vertical moving blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward contact + 106 solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater with 107 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines to be increased in 108 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar heat turbines aiming at increased power generation in 109 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Various energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity in 110 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Various energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 111 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 112 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air for heating with increasing lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation of specific critical materials vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier substances vertically downward + Sunlight + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + 115 types of two types of full-wing blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + 117 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines aiming to increase the quantity in 118 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy storage cycle coalescence engine in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 119 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar heat turbines aiming to increase power generation in 120 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in one stage + various energy conservation cycle coalescence engines that rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of power generation are provided in two stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 degrees + Add three types of full-scale blade gravity solar turbines that aim to increase the amount of accelerated power generation of specific critical substances vertically downward 3 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate four types of solar heaters on four levels.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heaters on the water surface with 6 types of solar power heaters.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Various energy storage cycle coalescing engines that rotate two types of solar heaters on 7 levels.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of acceleration power generation vertically Two types of full-wing blade gravity solar turbines are provided in 8 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling water vertically downward contact + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating and rolling hot water vertically downward contact + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Solar power heater with 12 types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + solar heating Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines targeted for increase in 13 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical-type full-blade gravity solar turbines aiming to increase power generation in 14 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engine that rotates two types of vertical rotor blade gravity solar heat turbines aiming to increase the quantity in 15 stages and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy storage cycle coalescing engines with two types of vertical rotor blade gravity solar turbines aiming at increased power generation provided in 16 stages, + solar heaters tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy-saving cycle coalescence engine that inclines and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 17 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed to approach 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated power generation of specific critical substances vertically downwards + 18 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 22 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are installed in 23 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 24 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 25 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward Two types of vertical moving blade gravity solar heat turbines aiming to increase power generation are installed in 26 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration The energy storage cycle coalescing engine, in which two types of vertical all-blade gravity solar thermal turbines aiming to increase the amount of power generation are provided in 27 stages and the solar heater is rotated on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Add two types of vertical rotor blade gravity solar turbines that aim to increase the amount of accelerated generation of specific critical substances vertically downward 28 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy conservation cycle coalescence engines that rotate the solar heater on the water surface with 29 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is a 30-stage + solar energy heater combined with various energy conservation cycle that tilts and rotates on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heaters on the surface of the water, which are provided in 31 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engines, which are provided in 32 stages, and rotate + solar heaters on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to accelerate the amount of accelerated power generation Two types of full rotor blade gravity solar heat turbines in 33 stages + Solar heaters tilted on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar heat turbines provided in 34 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees This is a combined energy storage cycle engine with two types of full-rotor-gravity solar power turbines installed in 38 stages and rotating a solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming for   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-rotor blade gravity solar heat turbines aimed at +40 solar power heaters on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at 41 + stages and rotate solar heaters on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming for increase in 42 stages.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees Various energy conservation cycle coalescing engines, in which two types of full-rotor blade gravity solar heat turbines are provided in 43 stages and solar heaters are inclined and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines aiming at 44+ stages and rotate solar heaters on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical all-blade gravity solar heat turbines aimed at 45 stages + solar heaters on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming at   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity Two types of energy storage cycle coalescence engine that inclines and rotates a solar heater on the water surface with two types of vertical-type full-blade gravity solar turbines aiming for increase in 47 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 48 stages of two types of full-sized blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is an energy storage cycle coalescence engine that rotates and tilts a solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters installed in 50 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate 52 types of solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 53 types of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 54 stages of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 55 types of two types of full-scale blade gravity solar heat turbines aiming to increase the amount of accelerated power generation vertically + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 56 stages of two types of full-sized blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 57 types of 2 types of full-rotor gravity gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is a 58-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the + solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that inclines and rotates the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescence engine that rotates + solar heaters installed on 63rd stage on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heaters provided on 64 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward A combined energy storage cycle engine that rotates the + solar heater provided on the 65th stage on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward A combined energy storage cycle engine that rotates the + solar heater on the water surface at 66 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Combined engine with various energy storage cycles that inclines and rotates solar heater on 67 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is an energy storage cycle coalescence engine that rotates and tilts a solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that inclines and rotates the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is an energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescence engine that rotates the + solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing gravity solar power generation heating turbines with a turbine blade cross section (4X) of 2 to 26 times in the vertical direction + accelerating water storage battery-powered ships + warming and increasing ball lifting device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescence engines that rotate the solar heaters on the surface of the water, with the types provided in 73 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate 74 types of solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescing engines that rotate the solar heater on the surface of the water, which is provided in 75 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescence engines that rotate the + solar heater on the water surface with the types provided in 76 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescence engine with 77 types of + solar heaters tilted and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same maximum amount of water generation are provided in 78 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation in 79 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation are installed in 80 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation are provided in 81 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation provided in 82 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees Combining + energy-saving cycle coalescing engine with two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation in the vertical direction.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical moving blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downwards are provided in 84 stages + Combined with various energy conservation cycles that rotate and rotate solar heaters on the water surface organ.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + 85 types of vertical rotor blade gravity solar heat turbines + various energy conservation cycle coalescence engines that incline and rotate solar heaters on the water surface .   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact vertically downward with high temperature water installed in 86 stages + Combined with various energy conservation cycles to rotate and rotate solar heater on water surface organ.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees Approaching + Heating the air with compressed air acceleration and aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar turbines are installed in 87 stages + Various energy storage cycles in which the solar heater is tilted and rotated on the water surface Combined organization.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aimed at increase in 88 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 89 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical rotor blade gravity solar turbines aiming to increase the quantity in 90 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface, with two types of vertical rotor blade gravity solar heat turbines aiming at increasing power generation provided in 91 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 92 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + 93 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming at increased power generation by accelerating rolling contact with hot water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 97 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical all blade gravity solar heat turbines aiming to increase the quantity in 98 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine with two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 99 stages and rotating a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 100 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation are installed in 101 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 102 stages, and a solar heater is rotated on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage, increasing the width of the long lens, compressing the heated air and bringing it closer to 1200 ° C A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate 104 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that rotates a solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescing engines that rotate the solar heater on the water surface with 106 types of solar power heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy conservation cycle coalescing engine with 107 types of solar power heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of acceleration power generation vertically Two types of full blade gravity solar thermal turbines are installed in 108 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heating heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling water vertically downward contact + 110 solar heaters on the water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-rotor gravity gravity solar turbines aimed at increase in 113 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines aiming at increased power generation in 114 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines aiming to increase the volume in 115 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar turbines in 116 stages to increase the amount of power generation and rotate the solar heater on the water surface at an angle.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy storage cycle coalescing engine that rotates two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 117 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhance the lens width Heating air is compressed close to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + 118 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + 119 stages of two types of full-wing blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressed air to increase the lens width and bring it closer to 1200 degrees + Two types of full-wing blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical type moving blade gravity solar heat turbines aiming to increase the amount in three stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine that tilts and rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in five stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 6 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines in 7 stages and rotate solar power on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Add two types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downward 8 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy conservation cycle coalescence engines that rotate the solar heater on the surface of the water, which is provided in 9 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is a 10-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate 11 types of solar heaters on 11 levels.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Various energy conservation cycle coalescing engines that rotate two types of solar heaters on 12 levels.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to accelerate the amount of accelerated power generation Two types of vertical rotor blade gravity solar heat turbines are provided in 13 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling hot water vertically downward contact + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Solar-heated heater with two types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + 17 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar heat turbines to be increased are provided in 18 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescing engines that rotate two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 19 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar heat turbines aiming to increase the quantity in 20 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are provided in 21 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is an engine that combines two types of energy conservation cycle, in which two types of full-scale blade gravity solar heat turbines aiming to increase power generation are provided in 22 stages + a solar heater is tilted and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the width of the lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downwards + 23 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of full-sized blade gravity solar thermal turbines aiming to increase power generation by heating the air with compressed air acceleration are provided in 27 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the amount are provided in 28 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 30 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As a type of energy storage cycle coalescence engine, two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 31 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 32 stages, and solar heaters are tilted and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 ° C + 33 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward 33 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy conservation cycle coalescence engines that rotate the solar heater on the water surface with 34 types of solar power heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescing engines that rotate the solar heaters on the surface of the water with the types provided in 36 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engines that rotate the solar heater on the water surface with two types provided in 37 stages.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generated vertically Two types of full-rotor gravity gravity solar heat turbines are provided in 38 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar turbines provided in 39 stages + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high-temperature water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Solar power heater with two types of vertical rotor blade gravity solar turbines in 42 stages that aim to increase power generation by heating air with compressed air acceleration + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-rotor gravity gravity solar turbines aimed at increase in 43 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescing engines that rotate two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 44 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines aiming to increase the quantity in 45 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical-type full-wing blade gravity solar turbines aiming to increase power generation in 46 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the surface of water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed to approach 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar power heaters provided in 48 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 49 days + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical bladed solar gravity turbines aiming at increased power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + 52 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the quantity are provided in 53 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical-type full-blade gravity solar turbines that aim to increase power generation in 54 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 55 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 56 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of power generation are provided in 57 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the water of the long lens + Compress the heating air of the long lens and bring it closer to 1200 ° C + 58 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward 58 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescence engines that rotate the solar heater on the water surface with 59 types of + solar power heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescence engines that rotate the solar heater on the water surface with a 61-stage type + solar heater.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy conservation cycle coalescing engines that rotate the solar heater on the water surface with two types provided in 62 stages.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar turbines are installed in 63 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar heat turbines provided in 64 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with hot water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar heat turbines to be increased are provided in 68 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar turbines in 69 stages, aiming to increase power generation, and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blades gravitational solar heat turbines aiming to increase quantity in 70 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 71 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is an engine that combines two types of energy storage cycle, in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are installed in 72 stages, and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the air to increase the lens width and bringing it closer to 1200 degrees + Two types of full-scale blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater with 73 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-sized blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 74 stages of sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aimed at increasing power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling hot water vertically downward + 76 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 77 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are provided in 78 stages + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 79 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engine that rotates two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 80 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical all blade gravity solar heat turbines aiming to increase power generation are provided in 81 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy storage cycle coalescing engines, in which two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 82 stages, and solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 degrees + Add two types of vertical-type full-blade gravity solar turbines aiming to increase the amount of accelerated power generation in the vertically downward direction A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescence engines that rotate the + solar heater on the water surface with 84 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 A variety of energy conservation cycle coalescing engines that rotate 86 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy conservation cycle coalescence engine with 87 types + solar heating heater tilted on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar turbines are installed in 88 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier material vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar heat turbines provided in 89 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with high temperature water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Heating air with compressed air acceleration and aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar turbines provided in 92 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical all-blade gravitational solar turbines to increase in 93 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 94 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity installed in 95 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescing engines in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are installed in 96 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 97 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhance the lens width by heating the air and bring it closer to 1200 ° C. + Two types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier substances vertically downward + Sunlight + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aimed at increasing power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar light Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + 102 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming to increase the quantity in 103 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 104 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Combined various energy conservation cycle coalescence engines with two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation provided in 105 stages and rotating solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 106 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration The energy storage cycle coalescing engine, in which two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 107 stages and the solar heater is tilted and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to approach 1200 degrees + Add two types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated power generation in the vertically downward direction with specific critical substances 108 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy storage cycle coalescing engines that rotate 109 types of solar heaters on 109 levels.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 111 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescence engine with 112 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Specific critical substances vertically accelerating the amount of acceleration power generation aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines provided in 113 stages + Solar heater heated on the surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + 114 solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross-section (4X) structure and method of gravitational solar power generation 2 to 26 times + accelerating various battery-powered vehicles + warming and increasing sphere lifting device (2F) to use and store water + increase the width of the long lens Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy conservation cycle coalescing engine that is tilted and rotated by   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of full-sized bladed gravitational solar heat turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + 116 solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compress the heated air and bring it close to 1200 degrees + Heating the air with compressed air acceleration and aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar turbines provided in 117 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater with 118 types of two types of full-scale blade-driven gravitational solar turbines to be increased in 118 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines in 119 stages, aiming to increase power generation, and rotate solar solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lifting device (2F) to save and use water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Power generation as accelerated rolling contact with water vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increasing quantity in 120 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar turbines aiming at increased power generation in a single stage and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles that rotates two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in two stages and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and store water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar power heaters provided in 3 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 7 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are installed in 8 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar turbines in 10 stages aiming to increase the amount of power generation and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical all-blade gravity solar heat turbines aiming to increase power generation are installed in 11 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are provided in 12 stages + a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and compress the heated air to approach 1200 degrees + Add two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation in the vertical downward direction with specific critical substances 13 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate 14 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is a 15-stage + solar energy heater that combines and rotates various energy conservation cycles on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescing engines that rotate 16 solar heaters on the water surface with 16 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 17 types of + solar heaters that rotate and rotate on the surface of the water.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar heat turbines are provided in 18 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines to be increased in 23 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescing engines, in which two types of vertical-type full-blade gravitational solar heat turbines aiming at increased power generation are provided in 24 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are provided in 25 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescing engines, in which two types of vertical all-blade gravity solar thermal turbines aiming at increased power generation are provided in 26 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 27 stages + a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressed air with increased lens width heating to approach 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + 28 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 29 sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward are provided in 31 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Water is supplied by accelerating compressed air to heat the air and aiming to increase power generation Two types of full blade gravity solar thermal turbines are provided in 32 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines aiming to increase the quantity in 33 stages + rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aimed at increasing power generation in 34 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar turbines in 35 stages to increase the amount of power generation and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical type moving blade gravity solar heat turbines aiming to increase power generation are provided in 36 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is an engine that combines two types of energy conservation cycle, in which two types of vertical-type full-blade gravitational solar turbines aiming to increase power generation are provided in 37 stages, and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 ° C + 38 types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy storage cycle coalescing engines that rotate 39 types of solar heaters on 39 levels.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 41 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 42 types of solar heater + rotating on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Specific critical substances vertically accelerated downward to increase the amount of accelerated power generation Two types of vertical rotor blade gravity solar heat turbines are provided in 43 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier material vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar turbines provided in 44 stages + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Water is accelerated vertically downward and contacted by two types of vertical rotor blade gravity solar heat turbines aiming at increased power generation in 45 stages + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Heating air with compressed air acceleration and aiming to increase the amount of power generation Two vertical rotor blade gravity solar turbines provided in 47 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees This is a combined energy storage cycle engine that tilts and rotates a solar heater with 48 types of all-type rotary blade gravity solar thermal turbines in 48 stages.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming at   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward A variety of energy conservation cycle coalescence engine that rotates two types of vertical all-blade gravitational solar heat turbines to aim at +50 and rotates a solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward An energy storage cycle coalescing engine that tilts and rotates a solar heater on the surface of water with two types of vertical rotor blade gravity solar turbines aiming at   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming for increase in 52 stages.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees This is a combined energy storage cycle engine with two types of full-rotor-gravity solar power turbines arranged in 53 stages and rotating the solar heater on the surface of the water.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines aiming at   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward A variety of energy conservation cycle coalescing engines in which two types of vertical-type full-blade gravity solar turbines aimed at are installed in 55 stages and a solar heater is inclined and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the surface of water, with two types of vertical rotor blade gravity solar turbines aiming at   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity Two types of energy storage cycle coalescing engines that rotate two types of vertical rotor blade gravity solar heat turbines aiming for increase in 57 stages and rotate solar heaters on the surface of water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the length of the long lens and compress the heated air to approach 1200 degrees + 58 stages of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the + solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters on the water surface provided in 60 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that inclines and rotates the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy conservation cycle coalescence engines that rotate the solar heater on the water surface with the types provided in 62 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air to approach 1200 degrees + 63 stages of 2 types of full-sized bladed gravitational solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 64 stages of 2 types of full-rotor gravity gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increases the width of the long lens and compresses the heated air to approach 1200 degrees + 65 stages of two types of full-scale blade gravity solar thermal turbines aiming to increase the amount of accelerated power generation vertically downward for specific critical substances + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Structure and method of accelerating water vertically by installing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-powered various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 66 stages of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 67 types of two types of full-scale blade gravity solar turbines aiming to increase the amount of accelerated power generation vertically + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Structure and method of accelerating water vertically by installing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-powered various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is an energy storage cycle coalescence engine that rotates and tilts a solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that inclines and rotates the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward Is an energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescence engine that rotates the + solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward The energy storage cycle coalescing engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heaters installed on the 73rd stage on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heaters installed in 74 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate + solar heaters installed in 75 stages on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that incline and rotate + solar heaters on 76 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Various energy storage cycle coalescing engines that rotate the + solar heater on the water surface at 77 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is an energy storage cycle coalescing engine that rotates a solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is an energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is an energy storage cycle coalescing engine that rotates a solar heater on the surface of the water.   Structure and method of accelerating water vertically by installing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-powered various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward The energy storage cycle coalescing engine that inclines and rotates the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling hot water vertically downward Is an energy storage cycle coalescence engine that rotates a solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate the solar heater on the water surface with the types provided in 83 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy storage cycle coalescence engines that rotate the + solar heater on the water surface with 84 types of types.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration Various energy conservation cycle coalescence engines that rotate the solar heaters on the water surface with 85 types of solar power heaters.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration A variety of energy conservation cycle coalescing engines that rotate 86 types of solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compresses heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by heating air with compressed air acceleration A variety of energy conservation cycle coalescence engine with 87 types of solar power heaters that tilt and rotate on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same amount of water maximum power generation provided in 88 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation are provided in 89 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same water maximum power generation provided in 90 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same amount of water maximum power generation provided in 91 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at the same amount of maximum power generation in 92 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees Combining various energy conservation cycle engines that are equipped with two types of vertical rotor blade gravity solar heat turbines that aim to increase the amount of accelerated power generation in the vertical direction.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees Two types of vertical rotor blade gravity solar turbines that aim at increasing power generation by accelerating heavier materials vertically downwards are provided in 94 stages + Combined with various energy conservation cycles that rotate and rotate solar heaters on the water surface organ.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical moving blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + 95 types of vertical moving blade gravity solar heat turbines + various energy conservation cycle coalescence engines that incline and rotate solar heaters on the water surface .   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + 96 stages + Combined with various energy conservation cycles to rotate and rotate solar heater on water surface organ.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees Two types of vertical moving blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration in 97 stages + Various energy conservation cycles that rotate and rotate solar heaters on the water surface Combined organization.   Turbine blade cross section (4X) gravity solar power heating turbine with 2 to 26 times multi-stage structure and method of accelerating high temperature water vertically downward + heat and cold use prime + long lens to absorb sunlight Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy storage cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical rotor blade gravity solar turbines to increase in 98 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 99 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increasing the quantity in a 100-stage + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 101 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy storage cycle coalescing engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 102 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravitational solar turbines aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + Solar heater with 103 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + 106 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 107 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines with two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of solar turbines and 108 solar stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 109 stages + various energy storage cycle coalescing engines that rotate and tilt solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A combination of various energy conservation cycle engines that have two types of vertical all-blade gravitational solar turbines aiming to increase power generation, and are provided with 110 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 111 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar turbines in 112 stages to increase power generation and rotate the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated power generation vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy conservation cycle coalescence engines that rotate 114 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward + 115 energy-saving cycle coalescing engines that rotate and rotate solar heaters on the surface of water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 A variety of energy storage cycle coalescing engines that rotate 116 types of solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescence engine with 117 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 ° C + 2 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical materials vertically downward + Inclined solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing the heated air to approach 1200 degrees + 119 stages of two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating and rolling hot water vertically downward contact + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy storage cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines to be increased in three stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in four stages, and solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the quantity are installed in five stages, and solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Various energy storage cycle coalescing engines that incline and rotate a solar heater on the surface of the water with two types of vertical-type full-blade gravity solar heat turbines aimed at increasing power generation in six stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is an engine that combines two types of energy storage cycle, in which two types of full-blade gravity solar turbines aiming to increase power generation are installed in seven stages, and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed to approach 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downwards + 8 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration + 12 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical all-blade gravitational solar turbines aiming to increase the quantity are provided in 13 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines, in which two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation are provided in 14 stages + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engine that rotates two types of vertical rotor blade gravity solar turbines aiming at increasing power generation in 15 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically As an energy storage cycle coalescence engine, two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 16 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy storage cycle coalescing engines with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 17 stages + rotating solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 ° C + 18 types of vertical rotor blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy conservation cycle coalescence engines that rotate the solar heater on the surface of the water, which is provided in 19 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescing engine that inclines and rotates the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 21 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 22 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar turbines are installed in 23 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 degrees + Water is accelerated vertically downward, and two types of vertical rotor blade gravity solar turbines aiming at increased power generation are provided in 25 stages + Solar heater on the water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling high temperature water vertically downward contact + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Water-driven air acceleration by accelerating compressed air to increase the amount of power generation Two vertical rotor blade gravity solar turbines provided in 27 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-rotor blade gravity solar heat turbines to be increased are provided in 28 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar turbines in 29 stages to increase the amount of power generation and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar heat turbines aiming to increase the quantity in 30 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are provided in 31 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 32 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air for heating with increased lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical materials vertically downward + Solar heater with 33 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier substances vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and store water + long Enhance the lens width by heating the air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and store water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of full-blade gravity solar solar turbines aiming to increase power generation by accelerating and rolling high temperature water vertically downward + 36 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration provided in 37 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar turbines in 38 stages + solar heaters on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + heat up sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy storage cycle coalescence engine that rotates two types of vertical-type full-blade gravitational solar turbines that aim to increase power generation in 39 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 40 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerated rolling contact with hot water vertically downward As an energy-saving cycle coalescence engine, two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are provided in 41 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy storage cycles, in which two types of full-scale blade gravity solar thermal turbines aiming to increase power generation are provided in 42 stages + a solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Increase the water of the long lens + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + 43 types of full-scale blade gravity solar thermal turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward 43 A combined energy storage cycle engine that rotates the + solar heater on the water surface at an angle.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate 44 types of solar heaters on 44 levels.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is a 45-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescence engine that rotates 46 types + solar heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 47 types + solar heater that tilts and rotates on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving blade gravity solar thermal turbines of 48 types with specific critical substances aiming to increase acceleration power generation vertically downward + Solar heaters tilted on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar turbines provided in 49 stages + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + 50 types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling hot water vertically downward contact + Solar power heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross-section (4X) structure and method of gravitational solar power generation 2 to 26 times + accelerating various battery-powered vehicles + warming and increasing sphere lifting device (2F) to use and store water + increase the width of the long lens Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar heat turbines to be increased are provided in 53 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 54 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescence engines that incline and rotate solar heaters on 55 levels with two types of vertical all-blade gravitational solar heat turbines aiming to increase the quantity in 55 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Combined various energy conservation cycle coalescence engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines aimed at increasing power generation in 56 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined engine with various energy conservation cycles in which two types of vertical rotor blade gravity solar turbines aiming to increase power generation are provided in 57 stages and a solar heater is rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air for heating with increased lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downwards + 58 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-blade gravitational solar power turbines aiming to increase power generation by accelerating heavier materials vertically downward + 59 sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high-temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of full-sized blade gravity solar thermal turbines aiming to increase power generation by heating air with compressed air acceleration + 62 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity in 63 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A combination of various energy storage cycle engines that incline and rotate a solar heater on the water surface with two types of vertical-type full-blade gravity solar turbines that aim to increase power generation in 64 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical-type full-blade gravity solar heat turbines aimed at increasing power generation provided in 65 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy-saving cycle coalescence engine, two types of vertical-type full-blade gravitational solar turbines aiming to increase power generation are provided in 66 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that incline and rotate a solar heater on the surface of the water with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 67 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Add two types of full-scale blade gravity solar thermal turbines that aim to increase the amount of accelerated power generation vertically by 68% A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy conservation cycle coalescence engines that rotate the solar heaters on the surface of the water, which are provided in 69 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that rotates the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescence engines that rotate the solar heaters on the water surface with the types provided in 71 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescence engine with 72 types + solar heater that tilts and rotates on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Specific critical substances vertically accelerated to increase the amount of accelerated power generation Two types of full-rotor blade gravity solar heat turbines are installed in 73 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating heavier materials vertically downward + Solar heating heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with hot water vertically downward + Solar power heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Heating the air with compressed air acceleration and aiming to increase the amount of power generation Two types of vertical rotor blade gravity solar heat turbines provided in 77 stages + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on 78 levels with two types of vertical-type full-blade gravity solar heat turbines to be increased in 78 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescing engines in which two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are provided in 79 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines aiming to increase the quantity are installed in 80 stages + a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface, which is provided with 81 types of vertical type full-blade gravity solar thermal turbines aimed at increasing power generation.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy-saving cycle coalescing engine in which two types of vertical all blade gravity solar turbines aiming to increase power generation are provided in 82 stages and a solar heater is tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated power generation of specific critical substances vertically downward + Solar heater with 83 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier materials vertically downward + Sunlight + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 87 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the quantity are installed in 88 stages, and solar heaters are tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation in 89 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 90 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy-saving cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 91 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical-type full-blade gravity solar heat turbines aiming to increase power generation are provided in 92 stages and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 ° C + 93 types of vertical rotor blade gravity solar turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescence engines that rotate the solar heater on the water surface with 94 types of types provided in 94 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is an energy storage cycle coalescence engine that rotates and tilts a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy storage cycle coalescing engines that rotate the solar heater on the water surface with 96 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 97 types of solar heaters that rotate and tilt on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air and approached 1200 degrees + Specific critical substances vertically accelerating the amount of accelerated power generation Two types of full-wing blade gravity solar turbines were installed in 98 stages + Solar heater was inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar heat turbines provided in 99 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Solar power heater with two types of vertical rotor blade gravity solar heat turbines that aim to increase power generation by heating air with compressed air acceleration + 102 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-rotor gravity gravity solar turbines aiming at increase in 103 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy conservation cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 104 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A combination of various energy storage cycle engines that incline and rotate a solar heater on the surface of water with two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity in 105 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy storage cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are provided in 106 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 107 stages + a combined energy storage cycle engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed to approach 1200 degrees + Vertically moving blade gravity solar thermal turbines aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + Solar power heaters provided in 108 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating heavier substances vertically downward + Solar light Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 112 stages + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical all-blade gravity solar heat turbines aiming to increase the quantity in 113 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical-type full-blade gravity solar turbines aiming to increase power generation are provided in 114 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines aiming at increased power generation in 115 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of full-wing blade gravity solar heat turbines aiming to increase power generation are provided in 116 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 117 stages and rotate solar heaters on the surface of water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to compress the heated air and bring it closer to 1200 degrees + 118 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescence engines that rotate the solar heater on the surface of the water with +119 types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward A 120-stage + solar energy heater that combines and rotates various energy storage cycles on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 A variety of energy storage cycle coalescing engines that rotate the solar heaters on the water surface with a variety of types in one stage.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Various energy storage cycle coalescing engines that rotate two types of solar heaters on two levels.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerated power generation vertically Two types of full-wing blade gravity solar heat turbines are provided in three stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier materials vertically downwards to increase power generation 2 types of vertical rotor blade gravity solar heat turbines in 4 stages + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two vertical wing-gravity gravitational solar thermal turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating and rolling hot water vertically downward contact + Solar heater on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines that aim to increase power generation by heating air with compressed air acceleration + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines aimed at increasing in eight stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines in 9 stages to increase the amount of power generation and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Various energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase the volume in 10 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) gravity solar power generation heating turbine with 2 to 26 times multi-stage structure and method of accelerating high temperature water vertically downward + hot and cold use prime + long lens to absorb sunlight Collecting linearly on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy conservation cycle coalescence engine that tilts and rotates solar heater on the surface of water with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation in 11 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that tilts and rotates a solar heater on the water surface, with two types of vertical rotor blade gravity solar turbines aiming to increase power generation in 12 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air for heating with increased lens width and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming to increase the amount of accelerated generation of specific critical materials vertically downwards + 13 types of solar heaters Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-sized blade gravity solar thermal turbines aiming to increase power generation by accelerating heavier substances vertically downward + 14 stages of sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming at increased power generation by accelerating rolling contact with high temperature water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 17 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming to increase the quantity are provided in 18 stages, + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine that tilts and rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescing engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 20 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward Two types of vertical moving blade gravity solar heat turbines aiming to increase power generation are provided in 21 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines, in which two types of vertical all-blade gravity solar thermal turbines aiming to increase power generation are provided in 22 stages, + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heated air to bring it closer to 1200 degrees + Add two types of vertical rotor blade gravity solar turbines that aim to increase the amount of accelerated generation of specific critical substances vertically downward 23 A combined energy storage cycle engine that rotates the + solar heater on the water surface at an angle.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 Various energy storage cycle coalescing engines that rotate the + solar heaters on the water surface with 24 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward Is a 25-stage + solar energy heater combined with various energy storage cycle that tilts and rotates on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescence engines that rotate the + solar heater on the water surface with 26 types of types.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy conservation cycle coalescing engine with 27 types of + solar heaters that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air and approaching 1200 degrees + Vertically moving specific gravity substances aiming to increase the amount of accelerating power generation vertically Two types of full rotor blade gravity solar heat turbines are provided in 28 stages + Solar heater is inclined on the water surface Various energy storage cycle combined engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier material vertically downward and aiming to increase power generation Two types of vertical rotor blade gravity solar turbines provided in 29 stages + Solar heater on water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Solar power heater with two types of vertical rotor blade gravity solar turbines aiming to increase power generation by heating air with compressed air acceleration in 32 stages + Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that rotates two types of vertical-type full-rotor gravity gravity solar turbines targeted for increase in 33 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increased power generation in 34 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Various energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming to increase the quantity in 35 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are provided in 36 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical moving blade gravity solar turbines aiming to increase power generation are provided in 37 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + 39 days + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing air to increase the lens width and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Two types of full-wing blade gravity solar heat turbines aiming to increase power generation by heating air with compressed air acceleration + 42 stages Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines aiming at increasing the quantity in 43 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical-type full-blade gravity solar turbines that aim to increase power generation in 44 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical all-blade gravity solar heat turbines aiming to increase power generation in 45 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines aiming to increase power generation are installed in 46 stages, and a solar heater is rotated at an angle on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration The energy storage cycle coalescing engine, in which two types of vertical-type full-blade gravity solar turbines aiming at increased power generation are provided in 47 stages, and the solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 ° C + 48 types of vertical rotor blade gravity solar turbines aiming to increase the amount of accelerated generation of specific critical substances vertically downward 48 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Accelerate the heavier material vertically downward to increase the power generation amount 2 type full rotor blade gravity solar turbine 2 A variety of energy storage cycle coalescing engines that rotate the + solar heater on the surface of the water with 49 types of + solar heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Use water for storage and storage + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines aiming to increase power generation by accelerating and rolling the water vertically downward The energy storage cycle coalescence engine that rotates the + solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens + Compress the heated air to bring it closer to 1200 ° C + Vertically moving blade gravity solar heat turbine 2 aiming to increase power generation by accelerating and rolling the hot water vertically downward contact 2 Various energy conservation cycle coalescing engines that rotate the solar heater on the water surface with 51 types of solar power heaters.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it to increase the width of the long lens Compress the heated air to approach 1200 degrees + Heat the air by accelerating the compressed air and aim to increase the amount of power generation Two types of energy storage cycle coalescing engine with 52 solar stages + solar heater heated and inclined on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to bring it closer to 1200 degrees + Vertically moving blade gravity solar heat turbines aiming at increasing the amount of accelerated generation of specific critical substances vertically downwards are provided in 53 stages + Solar heater is inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating heavier materials vertically downward + Solar heating on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C +2 types of vertical rotor blade gravity solar turbines aimed at increasing power generation by accelerating rolling contact with water vertically downward + Solar heater on water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Water heater on solar surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines that aim to increase power generation by heating air with compressed air acceleration + Solar heater with 57 stages Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravitational solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 increase power generation amount + heat retention increase ball lift device (2F) use water storage and increase + long lens width increase Compressing the heated air and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravitational solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 increase power generation amount + heat retention increase ball lift device (2F) use water storage and increase + long lens width increase Compressing heated air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravitational solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 increase power generation amount + heat retention increase ball lift device (2F) use water storage and increase + long lens width increase Compressing heated air and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravitational solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 increase power generation amount + heat retention increase ball lift device (2F) use water storage and increase + long lens width increase Compressing heated air to approach 1200 degrees + Two types of vertical all blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravitational solar power seawater temperature rise 0 fuel cost 0 CO2 exhaust 0 increase power generation amount + heat retention increase ball lift device (2F) use water storage and increase + long lens width increase Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 62 stages + Various energy conservation cycle coalescence engine that rotates solar heater on water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C A variety of energy storage cycle coalescing engines in which two types of vertical-type full-blade gravity solar turbines equipped with a target heating device are provided in 63 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at an increase in quantity are provided in 64 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase are provided in 65 stages + various energy storage cycle coalescence engines that rotate solar heaters on the water surface at an angle.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Combined engine with various energy storage cycles, in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increasing the amount are provided in 66 stages, and the solar heater is inclined and rotated on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 67 stages + various energy storage cycle coalescence engines that rotate solar heaters on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere lifting device (2F) + Saving the long lens width + Compressing the heated air to bring it closer to 1200 ° C A combination of various energy storage cycle engines, in which two types of vertical all-blade gravity solar turbines equipped with a target heating device are provided in 68 stages, and a solar heater is rotated on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward to generate electricity Various energy storage cycle coalescence engines aiming at 1000 times power generation by providing two types of vertical type moving blade gravity solar turbines equipped with a heating device in 69 stages.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Using the warming-increasing ball lifting device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Accelerating the water vertically downward and generating electricity as a contact Two energy saving cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming at increase in 70 stages and rotate solar heaters on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water in the warming and increasing ball lift device (2F) + Preserving and using the long lens + Compressing the heated air to bring it closer to 1200 degrees + Generating power as accelerated rolling contact with hot water vertically downward Two energy saving cycle coalescing engines that provide two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the quantity, and which are provided in 71 stages and rotate solar heaters on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times multi-stage structure and method of accelerating water vertically downward + hot and cold use prime + long lens to absorb sunlight + Collecting in a straight line + Keeping the water up with the warming-increasing sphere raising device (2F) + Using the long lens to increase the width Compress the heated air close to 1200 degrees + Heat the water with compressed air acceleration Two energy saving cycle coalescing engines that have two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, provided in 72 stages, and rotate and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescing engines, which are provided in 73 stages and rotate solar solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravitational solar turbines in 74 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of solar turbines in 75 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 76 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines, in which two types of bladed gravitational solar heat turbines are installed in 77 stages, and the solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescing engine with 78 types of + solar heaters that rotate and rotate on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy conservation cycle coalescing engine with 79 types of solar heaters that rotate and tilt on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescence engine with 80 types of solar power heaters that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescence engine with 81 types + solar heater heated and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescence engine with 82 types of solar power heaters that rotate and tilt on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy conservation cycle coalescing engines, in which two types of gravitational solar turbines are installed in 83 stages, and + solar heaters are inclined and rotated on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar heat turbines in 84 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 85 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 86 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 87 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, in which two types of solar turbines are installed in 88 stages, and + solar heaters are tilted and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 89 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 90 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of solar turbines in 91 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 92 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 93 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 94 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines, in which two types of gravitational solar turbines are installed in 95 stages, and a solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines, in which two types of gravity solar heat turbines are provided in 96 stages, and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically by installing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-powered various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward A combination of various types of energy storage cycle that has two types of gravity solar turbines installed in 97 stages and rotates a solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Combined engine with various energy conservation cycles to provide two types of blade gravity solar turbines in 98 stages and rotate solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are provided in 99 stages and + solar heaters are inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines, in which two types of blade-gravity solar heat turbines are provided in 100 stages, and + solar heaters are inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines that rotate two types of blade gravity solar turbines in 101 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescence engine that rotates two kinds of blade gravity solar heat turbines in 102 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical bladed solar gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that rotate and tilt the water on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width A heating device provided with 105 types of two types of vertical rotor blade gravity solar turbines equipped with a heating device that compresses the heating air to approach 1200 degrees + water and accelerates the water vertically downward to aim at increased power generation A variety of energy conservation cycle coalescence engine with two types of vertical type full-blade gravity solar solar turbines equipped in multiple stages + a solar heater inclined and rotated on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two kinds of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 107 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravitational solar turbines equipped with a heating device to increase are provided in 108 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 109 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 110 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Various energy storage cycle coalescing engines in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 111 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 112 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + 113 types of 2 types of full-sized bladed gravitational solar thermal turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 114 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating heavier substances vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 115 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Hot water is accelerated vertically in contact with the hot water to increase the amount of power generation. A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 117 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the amount are provided in 118 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward 119 stages equipped with two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation + a combined energy storage cycle engine that rotates and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar turbines equipped with heating devices aiming at increased power generation in 120 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees As an energy storage cycle coalescence engine, two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in one stage, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two energy saving cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming to increase power generation in two stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy conservation cycle coalescing engines that rotate two types of turbines in three stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 4 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in five stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of blade-gravity solar turbines in 6 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of moving blade gravity solar turbines in 7 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that rotate and tilt the water on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + 11 Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 12 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the surface of the water with two types of vertical rotor blade gravity solar turbines equipped with a heating device aimed at increasing in 13 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming at increased power generation in 14 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming at increasing the amount are provided in 15 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A combination of various energy storage cycle engines, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 16 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that has two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation in 17 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of full-sized bladed gravitational solar turbines equipped with heating devices aiming to increase the amount of accelerated power generation of specific critical substances vertically are provided in 18 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward in 19 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed and approaches 1200 degrees + Water is provided in 20 stages with two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact vertically downward + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 degrees + 2 types of vertical rotor blade gravity solar turbines equipped with heating device aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward in 21 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Water is heated by compressed air acceleration and water is heated to increase power generation. Two types of vertical rotor blade gravity solar turbines with 22 stages + Energy storage cycle coalescing engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate 2 types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming to increase the amount in 23 stages + rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined engine with various energy storage cycles, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 24 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 25 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical bladed gravitational solar heat turbines equipped with a heating device aiming to increase power generation are provided in 26 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 27 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 28 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar heat turbines in 29 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate 2 types of gravity solar heat turbines in 30 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 31 stages and rotates the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of moving blade gravity solar turbines in 32 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Vertically moving blade gravity solar heat turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + 33 types of solar heaters Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air and approaching 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 37 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy storage cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device to increase are provided in 38 stages, + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with heating devices that aim to increase power generation are provided in 39 stages + various energy storage cycle coalescing engines that rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A combination of various energy storage cycle engines that rotate two types of vertical-type full-blade gravity solar turbines equipped with a heating device to increase the quantity in 40 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engine, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 41 stages + a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that has two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, and is provided with 42 stages + a solar heater inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air to increase the lens width to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of accelerated power generation of specific critical substances vertically downward + 43 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + 2 types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward to 44 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Water is accelerating downward in the vertical direction, and two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 45 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + high-temperature water is accelerated downward in contact with the vertical water, and two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation in 46 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhances lens width Heating air is compressed to approach 1200 degrees + 47 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescing engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A combination of various energy storage cycle engines that provide two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity and provide 48 stages + solar heaters to tilt and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine with two types of vertical full-blade gravity solar turbines equipped with a heating device that aims to increase power generation in 49 stages and rotating the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 50 stages + various energy storage cycle coalescing engines that rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescing engine, two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increasing power generation are provided in 51 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 52 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 53 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy storage cycle coalescing engines, in which two types of bladed gravitational solar heat turbines are provided in 54 stages, and the solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 55 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C. Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are provided in 56 stages and a solar heater is rotated on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescing engines that rotate two gravitation solar thermal turbines in 57 stages and rotate solar heaters on the surface of water.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing the heated air and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical all blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 62 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar turbines equipped with a heating device aimed at increasing in 63 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 64 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 65 stages + various energy storage cycle coalescence engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation in 66 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generated are provided in 67 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air to increase the lens width and approaching 1200 degrees + 68 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward to 69 stages A combined energy storage cycle engine that rotates the installed + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical full blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 70 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward into 71 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + 72 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air by accelerating compressed air with water + Energy storage cycle coalescing engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the quantity are provided in 73 stages + various energy storage cycle coalescence engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation are provided in 74 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 75 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 76 stages, and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration The energy storage cycle coalescing engine that has two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation and has 77 stages + a solar heater inclined and rotated on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Combined with various energy storage cycle engines that rotate two types of turbines in 78 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Combined engine with various energy storage cycles, with two types of blade gravity solar heat turbines installed in 79 stages and rotating the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 80 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines, in which two types of blade gravity solar heat turbines are provided in 81 stages, and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of moving blade gravity solar heat turbines in 82 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + 83 types of solar heaters Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical bladed gravitational solar heat turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air and approached 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration were provided in 87 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy storage cycle coalescence engine that inclines and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines equipped with a heating device aimed at increasing in 88 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increased power generation in 89 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 90 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Two energy saving cycle coalescing engines that have two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation in 91 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 92 stages + various energy storage cycle coalescence engines that rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + 93 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 94 types of 2 types of full-wing blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed close to 1200 degrees + Two types of vertical full blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 95 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 degrees + 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward in 96 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed close to 1200 degrees + 97 stages of two types of full-scale blade gravity solar thermal turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increasing the amount are provided in 98 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 99 stages. + Various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines equipped with heating devices aiming at increased power generation are provided in 100 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees As an energy storage cycle coalescence engine, two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 101 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generated are provided in 102 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 103 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy storage cycle coalescing engines, in which two types of bladed gravitational solar heat turbines are installed in 104 stages and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, in which two types of gravity solar heat turbines are installed in 105 stages, and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are provided in 106 stages and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two kinds of moving blade gravity solar turbines in 107 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that rotate and tilt the water on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + 109 types of 2 types of full-blade gravity solar solar turbines equipped with a heating device that accelerates heavier materials vertically downward to increase power generation Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Two types of vertical bladed gravity gravity solar turbines equipped with a heating device aiming at increased power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + 112 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees Two types of vertical rotor blade gravity solar turbines equipped with a heating device aimed at increasing are provided in 113 stages + various energy storage cycle coalescing engines that rotate and tilt solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 114 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 115 stages + various energy storage cycle coalescence engines that rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increased power generation in 116 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine with two types of vertical all-blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generated, in 117 stages, and a solar heater that tilts and rotates on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of accelerated power generation of specific critical substances vertically downward + 118 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 119 stages of 2 types of full-rotor gravity gravity solar thermal turbines equipped with a heating device that aims to increase power generation by accelerating heavier materials vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 120 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward in one stage A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and store water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that heats air with compressed air acceleration to increase power generation in two stages + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity are provided in three stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine with two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation in four stages + a solar heater that tilts and rotates on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical all-blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generated.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming to increase power generation are provided in six stages, and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation are provided in 7 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescence engine that rotates two types of turbines in 8 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of bladed gravitational solar heat turbines in 9 stages and rotates the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 10 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy storage cycle coalescing engines that rotate 2 types of blade gravity solar turbines in 11 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescing engines that rotate two types of moving blade gravity solar turbines in 12 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of accelerated power generation in the vertically downward direction for specific critical substances + 13 solar heaters Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Accelerating heavier material vertically downward to increase power generation 1000x power generation by installing two types of vertical rotor blade gravity solar turbines equipped with heating devices in 14 stages Various energy conservation cycle coalescence engines aiming for quantity.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two kinds of vertical all blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + 17 types of 2 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air Compressed and approached 1200 degrees + Vertically moving blade gravity solar heat turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downwards were provided in 18 stages + Solar heater on the water surface Various energy storage cycle coalescing engines that rotate at an angle.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward and +19 degree + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air Compressing the water and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with high temperature water vertically downward and contacting it +21 degrees + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation vertically downward with a specific critical substance +23 degrees + solar heater on the water surface Various energy storage cycle coalescing engines that rotate at an angle.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downwards + 24 stages + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating and rolling the water vertically downward to make contact + 1200 degrees + solar heater Various energy storage cycle coalescing engines that rotate and rotate on the water surface.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of full-scale blade gravity solar thermal turbines equipped with a heating device that aims to increase power generation by accelerating and rolling high temperature water vertically downward contact + 26 solar heaters + solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Configuration and method of accelerating the turbine blade cross-section (4X) by 2 to 26 times gravity solar power water vertically downward ++ Using the warming and increasing ball rising device (2F) to store and use the water + Long lens width increasing heating air 2 types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration and +27 solar heating + solar heating Various energy conservation cycle coalescing engines that tilt and rotate the vessel on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescence engine with 28 types of solar power heaters that tilt and rotate on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy conservation cycle coalescing engines that rotate 2 types of gravity solar heat turbines in 29 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 30 stages and rotate a solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that rotate 2 types of gravity solar heat turbines in 31 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines, in which two types of bladed gravitational solar heat turbines are provided in 32 stages and a solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate 2 types of solar heaters on 33 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescence engine with 34 types of + solar heaters that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescing engine with 35 types of solar heaters that rotate and tilt on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescing engines, which are provided in 36 stages and rotate solar solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescing engines that rotate the solar heater on the water surface with two types provided in 37 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of gravity solar heat turbines are provided in 38 stages, and + solar heaters are inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 39 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar heat turbines in 40 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 41 stages and rotate solar heaters on water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy conservation cycle coalescing engines, in which two types of gravity solar heat turbines are provided in 42 stages, and + solar heaters are inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of solar turbines in 43 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of solar turbines in 44 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of solar turbines in 45 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 46 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of solar heat turbines in 47 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines, in which two types of gravitational solar turbines are installed in 48 stages, and the solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 49 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravitational solar turbines in 50 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 51 stages and rotate solar heaters on water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 52 stages and rotate solar heaters on water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar turbines in 53 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines, in which two types of bladed gravitational solar heat turbines are provided in 54 stages, and the solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines that rotate two types of blade gravity solar turbines in 55 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are provided in 56 stages and a solar heater is rotated on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Combined engine with various energy conservation cycles to provide two types of blade gravity solar heat turbines in 57 stages and rotate solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + 58 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at the same maximum water generation + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + 59 stages of 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at the same maximum water generation amount + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + 60 stages of two types of full-scale blade gravity solar heat turbines equipped with a heating device aiming at the same maximum water output + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + 61 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at the same maximum water output + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 62 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at the same maximum water output + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head as much as possible with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to raise and store the water + Use the long lens to increase the width of the heated air 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation vertically downward with a specific critical material + 63 degrees + solar heater is inclined and rotated on the water surface Various energy conservation cycle coalescing engines.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head as much as possible with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to raise and store the water + Use the long lens to increase the width of the heated air 2 types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + 64 stages + solar heater on the water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head as much as possible with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to raise and store the water + Use the long lens to increase the width of the heated air 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aimed at increasing power generation by accelerating rolling contact with water vertically downward + 65 stages + solar heater on the water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head as much as possible with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to raise and store the water + Use the long lens to increase the width of the heated air + Two types of vertical bladed gravitational solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + 66 stages + solar heater on the water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head as much as possible with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to raise and store the water + Use the long lens to increase the width of the heated air + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating the air with compressed air acceleration in +67 stages + Solar heaters on the water surface Various energy conservation cycle coalescing engines that tilt and rotate above.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees Two types of vertical rotor blade gravity solar turbines equipped with a heating device aimed at increasing are provided in 68 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical-type full-blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 69 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 70 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aimed at increasing power generation in 71 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that has two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, and is provided with 72 stages + a solar heater inclined on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of lens width and bringing it closer to 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + 73 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 74 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical full blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward are provided in 75 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward to 76 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhance the lens width Heating air is compressed to approach 1200 degrees + 77 stages of 2 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration of water + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two energy saving cycle coalescing engines with two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the amount of solar energy heaters that are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 79 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A combination of various energy storage cycle engines that have two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, provided in 80 stages, and that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation are provided in 81 stages + a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generated are provided in 82 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 83 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 84 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 85 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are installed in 86 stages, and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of moving blade gravity solar heat turbines in 87 stages and rotates the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Vertically moving blade gravity solar heat turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical materials vertically downwards + 88 types of solar heaters Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical all blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 92 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   A structure and method for accelerating high-temperature water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in multiple stages. Long lens width increase Air is compressed close to 1200 degrees by heating. + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically are provided in 93 stages. + Various energy storage cycle coalescing engines that rotate solar heaters on water.   A structure and method for accelerating high-temperature water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in multiple stages. Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + 94 stages of 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating high-temperature water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in multiple stages. Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + 95 types of 2 types of full-scale blade gravity solar thermal turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   A structure and method for accelerating high-temperature water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in multiple stages. Increase the width of the long lens Compress the heated air and bring it closer to 1200 degrees + 96 stages of 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating high-temperature water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in multiple stages. Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + 97 types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration 97 A combined energy storage cycle engine that rotates the + solar heater installed on the stage at an angle on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air to increase the width of the lens to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + 98 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward to 99 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward are provided in 100 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with hot water vertically downward in 101 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 ° C + 102 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two types of vertical all-blade gravity solar thermal turbines equipped with a heating device aiming to increase the amount are provided in 103 stages + various energy storage cycle coalescence engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Combined with various energy storage cycle engines, which are equipped with 104 types of vertical all-blade gravitational solar turbines equipped with a heating device that aims to increase the amount of power generation, and in which the solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, provided in 105 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 106 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 107 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines, in which two types of turbines are installed in 108 stages and a solar heater is rotated at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are provided in 109 stages and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 110 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy conservation cycle coalescing engines, in which two types of blade gravity solar heat turbines are installed in 111 stages and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy conservation cycle coalescence engine that rotates two kinds of moving blade gravity solar turbines in 112 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with heating devices aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing the heated air to approach 1200 degrees + 114 types of two vertical all blade gravity solar turbines equipped with a heating device aiming to increase the amount of power generation by accelerating heavier substances vertically downward + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two kinds of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 117 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines equipped with a heating device aimed at increase in 118 stages and rotate solar heaters incline on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward 119 stages of two types of full-scale blade-driven gravitational solar thermal turbines equipped with a heating device that aims to increase power generation + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at an increase in quantity are provided in 120 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Various energy storage cycle coalescing engines with two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation provided in one stage and rotating solar heaters inclined on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that has two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase power generation in two stages + a solar heater that tilts and rotates on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with heating devices aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downwards in four stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward are provided in five stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + high temperature water is accelerated downward and contacted vertically, and two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation in 6 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and store water + long Increased lens width Heated air is compressed close to 1200 degrees + 7 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration of water + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting in a straight line on the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees A combination of various energy storage cycle engines that are equipped with two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the quantity and are provided with 8 stages + a solar heater inclined on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + heat up sunlight with long lens Collect in a straight line on the absorbent material + Use the warming-increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy storage cycle coalescing engine that has two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation, and is provided in 9 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 10 stages + a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation are provided in 11 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar heat turbines equipped with a heating device that aims to increase power generation in 12 stages and rotate solar heaters on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescence engine that rotates two types of turbines in 13 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 14 stages and rotates a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 15 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C. Various energy storage cycle coalescing engines that rotate 2 types of blade gravity solar turbines in 16 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates 2 types of moving blade gravity solar turbines in 17 stages and rotates the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward contact 21 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 22 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar turbines equipped with a heating device aimed at increase in 23 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 24 stages + solar heaters are inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 25 stages + various energy storage cycle coalescence engines that rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Two types of vertical all-blade gravity solar thermal turbines equipped with a heating device that aims to increase the amount of power generation are provided in 26 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration 2 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, provided in 27 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with a heating device that aims to increase the amount of accelerated power generation of specific critical substances vertically downward + 28 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air compressed to approach 1200 degrees + 29 types of 2 types of full rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed close to 1200 ° C + 2 types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 30 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + High-temperature water is accelerated vertically downward and contacted by two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation in 31 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed close to 1200 degrees + 32 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration of water + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A combination of various energy storage cycle engines, in which two types of vertical all blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity are provided in 33 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate hot water vertically downward Driving a heating mass turbine and a heating calorie turbine + two types of vertical rotor blade gravity solar turbines equipped with a heating device that tilts and rotates a solar thermal suspension suspension bridge on land + 34 solar heaters on the water surface Various energy storage cycle coalescing engines that rotate at an angle.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 35 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescing engine, two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 36 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation are provided in 37 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate 38 types of turbines in 38 multi-stage + solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar turbines in 39 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar heat turbines in 40 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C. Various energy storage cycle coalescing engines, in which two types of blade gravity solar thermal turbines are provided in 41 stages, and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescing engines that rotate two gravitational solar power turbines in 42 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical materials vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + 44 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + 47 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy storage cycle coalescence engine that rotates two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aimed at increase in 48 stages + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A combination of various energy storage cycle engines that provide two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation in 49 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two energy saving cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming at increasing quantity in 50 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 51 stages + various energy storage cycle coalescing engines that rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy storage cycle coalescing engine in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation are provided in 52 stages + a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full blade dynamic solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward are provided in 53 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of full-scale blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward to 54 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 55 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with hot water vertically downward in 56 stages A combined energy storage cycle engine that rotates the installed + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed to approach 1200 degrees + 57 stages of 2 types of full-scale blade gravity solar thermal turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount are provided in 58 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 59 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two energy saving cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increased power generation in 60 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescing engine, two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 61 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation are provided in 62 stages + various energy storage cycle coalescence engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 63 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 64 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 65 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C. Various energy conservation cycle coalescing engines that provide two types of blade gravity solar heat turbines in 66 stages and rotate the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescing engines that rotate two types of rotor blade gravity solar turbines in 67 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + 69 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 72 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines equipped with a heating device to be increased in 73 stages and rotate solar heaters on the surface of water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two energy saving cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming at increased power generation in 74 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 75 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation in 76 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 77 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air to increase the lens width and approaching 1200 degrees + 78 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-scale blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward to 79 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical full blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 80 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward in 81 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 degrees + 82 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescing engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity in 83 stages + rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy storage cycle coalescing engine in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 84 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two energy saving cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with heating devices aiming at increased power generation in 85 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 86 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generated are installed in 87 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Combined with various energy storage cycle engines that rotate two types of turbines in 88 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Combined engine with various energy storage cycles, with two types of bladed gravitational solar heat turbines installed in 89 stages and rotating the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 90 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C. Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar heat turbines in 91 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of moving blade gravity solar turbines in 92 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Vertically moving blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of accelerated power generation of specific critical substances vertically downward + 93 types of solar heaters Various energy conservation cycle coalescing engines that rotate and tilt the water on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing the heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air and brought it close to 1200 degrees + 97 types of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device to be increased are provided in 98 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy storage cycle coalescing engines with two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation provided in 99 stages and rotating solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount are provided in 100 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A combination of various energy storage cycle engines with two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation provided in 101 stages and rotating a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy storage cycle coalescing engine in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation are provided in 102 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + 103 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 104 types of 2 types of full-rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhance the width of the lens Compress the heated air and bring it closer to 1200 degrees + 105 types of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Hot water is accelerated vertically in contact with the hot water to increase the amount of power generation. A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 107 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration of water + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming to increase the amount are provided in 108 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generated are provided in 109 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two energy saving cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation in 110 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase power generation are provided in 111 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generated are provided in 112 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 113 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 114 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar heat turbines in 115 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C. Various energy conservation cycle coalescence engines that rotate two types of blade gravity solar turbines in 116 stages and rotate solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescing engines that rotate and rotate a solar heater with two types of rotor blade gravity solar heat turbines in 117 stages.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + 118 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing the heated air to approach 1200 degrees + 119 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air and approaching 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward contact + solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration in two stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees Two energy saving cycle coalescing engines with two types of vertical all-blade gravity solar heat turbines equipped with a heating device to be increased in three stages + a solar heater that tilts and rotates on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation are provided in four stages + a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two energy saving cycle coalescing engines that have two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the quantity and are provided with 5 stages + a solar heater inclined on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy storage cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in six stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 7 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees. + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of accelerated power generation of specific critical substances vertically downward + 8 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-scale blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward in 9 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 10 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar heat turbines equipped with a heating device aimed at increasing power generation by accelerating rolling contact with hot water vertically downward in 11 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 degrees + 12 stages of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration of water + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Various energy storage cycle coalescing engines in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity are provided in 13 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming-increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine with two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation in 14 stages + a solar heater that tilts and rotates on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increased power generation in 15 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation are provided in 16 stages, and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + heat up sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lift device (2F) to save and use water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that has two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation and is provided in 17 stages.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 18 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Combined engine with various energy storage cycles that rotates two types of blade gravity solar turbines in 19 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + The vertical all-wing blade equipped with a heating device that aims to increase the amount of power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 20 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C. Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are installed in 21 stages and + solar heaters are inclined and rotated on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) The water is increased and stored at + the length of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated by compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of rotor blade gravity solar heat turbines in 22 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Vertically moving blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of accelerated generation of specific critical substances vertically downward + 23 types of solar heaters Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward contact + 26 Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 27 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Heat to aim at increasing the amount of accelerated power generation in the vertical downward direction A variety of energy conservation cycle coalescence engine, in which two types of vertical-type full-blade gravity solar turbines equipped with equipment are provided in 28 stages + a solar heater is tilted and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at 29 stages and rotate the solar heater on the water surface at an inclination.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar turbines equipped with a target heating device in 30 stages and rotate solar heaters on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward 2 types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming for the above.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity Various energy storage cycle coalescing engines in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming for increase are provided in 32 stages + a solar heater is inclined and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Heat to aim at increasing the amount of accelerated power generation in the vertical downward direction A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface, with two types of vertical-type full-blade gravity solar heat turbines equipped with devices provided in 33 stages.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming for the above are provided in 34 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a target heating device in 35 stages and rotate the solar heater on the surface of the water.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward 2 types of full-scale blade gravity solar thermal turbines equipped with a heating device aiming for the above.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase are provided in 37 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescence engine with 38 types of + solar heaters that rotate and rotate on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 39 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 40 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 41 stages and rotate solar heaters on water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescing engines, in which two types of blade gravity solar heat turbines are provided in 42 stages and + solar heaters are inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of solar power heaters in 43 stages and tilt on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescence engine with 44 types of + solar heaters that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of solar heaters on 45 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescence engine with 46 types of + solar heaters that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy conservation cycle coalescence engine with 47 types of + solar heaters that rotate and tilt on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of gravitational solar turbines are installed in 48 stages, and the solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 49 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravitational solar turbines in 50 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 51 stages and rotate solar heaters on water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 52 stages and rotate solar heaters on water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 53 stages and rotate the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heating turbines in 54 stages and rotate the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 55 stages and rotate a solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heating turbines in 56 stages and rotate the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 57 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar heat turbines in 58 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Two types of gravity solar heat turbines are installed in 59 stages + various energy storage cycle coalescing engines that rotate solar heaters on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 60 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 61 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines, in which two types of gravitational solar turbines are installed in 62 stages and + solar heaters are inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescence engine that rotates 2 types of blade gravity solar turbines in 63 stages and rotates solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 64 stages and rotates solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar turbines in 65 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescing engines that provide two types of blade gravity solar heat turbines in 66 stages and rotate the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Combined engine with various energy conservation cycles to provide two types of blade gravity solar heat turbines in 67 stages and rotate solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air to approach 1200 degrees + 68 stages of 2 types of full-scale blade gravity solar thermal turbines equipped with a heating device aiming at the same maximum water output + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 69 stages of 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming for the same maximum water generation amount + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + 70 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming for the same maximum water generation amount + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + 71 stages of 2 types of full-scale blade gravity solar thermal turbines equipped with a heating device aiming for the same maximum water generation amount + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + 72 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming for the same maximum water generation amount + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation in a vertically downward direction with specific critical materials + 73 types of energy storage by tilting and rotating a solar heater on the water surface Cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating vertically downward heavier materials + 74 stages of solar heating heaters are tilted and rotated on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward contact + 75 types of solar heaters tilted and rotated on the water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with hot water vertically downward + 76 stages + Solar heater is tilted and rotated on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating the air with accelerated compressed air + 77 stages + A solar heater is tilted and rotated on the water surface Various energy conservation cycle coalescing engines.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees Two energy saving cycle coalescing engines that have two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aimed at increasing are provided in 78 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming at increased power generation in 79 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A combination of various energy storage cycle engines, which are equipped with two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity, and are rotated in an inclined manner on a water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increased power generation in 81 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy storage cycle coalescing engine in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 82 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 ° C. Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical materials vertically are provided in 83 stages. Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + 2 types of vertical bladed gravitational solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward to 84 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed close to 1200 ° C + Two types of vertical bladed gravitational solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward are provided in 85 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + high-temperature water is accelerated downward in contact with the vertical water, and two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are increased to 86 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 degrees + 87 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar turbines equipped with a heating device aiming to increase the quantity in 88 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 89 stages + various energy storage cycle coalescing engines that incline and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two energy saving cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation in 90 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are installed in 91 stages + a solar heater is tilted and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 92 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 93 stages and rotate solar heaters on the surface of water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Combined engine with various energy conservation cycles to provide two types of blade gravity solar turbines in 94 stages and rotate solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines, in which two types of gravitational solar turbines are installed in 95 stages, and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are installed in 96 stages and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount A combination of various types of energy storage cycle, in which 97 types of rotor blade gravity solar heat turbines are installed in 97 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 102 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device to be increased are provided in 103 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 104 stages and + solar heaters are inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 105 stages + a combined energy storage cycle engine that rotates a solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A combination of various energy storage cycle engines, in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation are provided in 106 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generated are provided in 107 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + 108 types of two vertical all blade gravitational solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward to 109 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical full-blade gravity solar thermal turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 110 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward in 111 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + 112 stages of 2 types of full-scale blade gravity solar thermal turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy storage cycle coalescence engine that rotates two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity of solar power heaters at 113 stages and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 114 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 115 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation are provided in 116 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with heating devices aiming at increased power generation in 117 stages and rotate solar heaters on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate 2 types of turbines in 118 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are installed in 119 stages and + solar heaters are tilted and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 120 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar turbines in one stage and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of moving blade gravity solar turbines in two stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 7 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A combination of various energy storage cycle engines, in which two types of vertical all-blade gravitational solar heat turbines equipped with a heating device to be increased are provided in eight stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with heating devices that aim to increase power generation are provided in 9 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A combination of various energy storage cycle engines, in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the amount are provided in 10 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation are provided in 11 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy storage cycle coalescing engine that has two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation and is provided with 12 stages + a solar heater inclined on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with heating devices aiming to increase the amount of accelerated generation of specific critical substances vertically downwards are provided in 13 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + 14 types of vertical rotor blade gravity solar turbines equipped with a heating device that accelerates heavier materials vertically downward to increase power generation A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Water is accelerating downward in the vertical direction, and two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation are provided in 15 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + High-temperature water is accelerated downward in contact with the vertical water, and two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are arranged in 16 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + 17 stages of two types of full-scale blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the quantity are provided in 18 stages + various energy storage cycle coalescing engines that rotate and tilt solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 19 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 20 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward Two types of vertical bladed solar gravity turbines equipped with a heating device that aims to increase power generation are provided in 21 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration The energy saving cycle coalescing engine which has two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of power generation and is provided with 22 stages + a solar heater inclined on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 23 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar turbines in 24 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, in which two types of gravity solar heat turbines are provided in 25 stages, and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy storage cycle coalescing engines, in which two types of bladed gravitational solar heat turbines are provided in 26 stages and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescing engines that rotate two types of moving blade gravity solar turbines in 27 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Vertically moving blade gravity solar heat turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + 28 types of solar heaters Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + 29 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with heating devices aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration are provided in 32 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aimed at increase in 33 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the surface of water with two types of vertical-type full-blade gravity solar turbines equipped with a heating device that aims to increase power generation in 34 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increasing the quantity are provided in 35 stages + a combined energy storage cycle engine that rotates a solar heater inclined on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy storage cycle coalescing engines in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 36 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy storage cycle coalescing engine in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation are provided in 37 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of full-blade full-gravity gravity solar turbines equipped with a heating device that aims to increase the amount of accelerated power generation of specific critical substances vertically downward + 38 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-scale blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward to 39 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Water is accelerated vertically downward and contacted with two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation in 40 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + high-temperature water is accelerated downward in contact with the vertical water, and two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are in 41 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + 42 stages of 2 types of full-scale blade gravity solar heat turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the quantity are provided in 43 stages + various energy storage cycle coalescence engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy storage cycle coalescing engine in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of power generation are provided in 44 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, provided in 45 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device that aims to increase power generation are provided in 46 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A combination of various energy storage cycle engines that incline and rotate a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 48 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Combined engine with various energy conservation cycles to provide two types of blade gravity solar turbines in 49 stages and rotate solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravitational solar turbines in 50 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy storage cycle coalescing engines, in which two types of blade-gravity solar heat turbines are provided in 51 stages, and the solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy conservation cycle coalescing engines that rotate two types of moving blade gravity solar turbines in 52 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Vertically moving blade gravity solar heat turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downwards + 53 types of solar heaters Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + 54 types of vertical bladed solar gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air and approaching 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 57 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase are provided in 58 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with heating devices that aim to increase power generation are provided in 59 stages + various energy storage cycle coalescence engines that rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A combination of various energy storage cycle engines, in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the amount are provided in 60 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Two types of vertical-type full-blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 61 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 62 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward are provided in 63 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of full-scale blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward to 64 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical full-blade gravity solar thermal turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 65 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + high-temperature water is accelerated downward in contact with the vertical water, and two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are arranged in 66 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Water is compressed by accelerating compressed air to heat the air to increase the amount of power generation Two types of vertical rotor blade gravity solar turbines with 67 stages + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount are provided in 68 stages + various energy storage cycle coalescence engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generated are provided in 69 stages. + A combined energy storage cycle engine that rotates a solar heater inclined on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 70 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation are provided in 71 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 72 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 73 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Combined engine with various energy storage cycles, with two types of blade gravity solar heat turbines installed in 74 stages and rotating the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar heat turbines in 75 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar turbines in 76 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of moving blade gravity solar turbines in 77 stages and rotates the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical bladed solar gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + 79 types of 2 types of full-blade all-gravity gravitational solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward contact + 81 Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 82 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aimed at increase in 83 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that provide two types of vertical full-blade gravity solar thermal turbines equipped with a heating device that aims to increase power generation in 84 stages + rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 85 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Two types of vertical-type full-blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 86 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 87 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees. + Two types of vertical rotor blade gravity solar turbines equipped with heating devices aiming to increase the amount of accelerated generation of specific critical substances vertically below are provided in 88 stages. Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 89 types of 2 types of full-bladed full-gravity gravitational solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed close to 1200 degrees + Two types of vertical full-blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward are provided in 90 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + high-temperature water is accelerated downward in contact with the vertical water, and two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation in 91 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed close to 1200 degrees + 92 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that have two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity, and are provided with 93 stages + a solar heater inclined on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Combined with various energy storage cycle engines, which are equipped with 94 types of two-type full-rotor-gravity solar power turbines equipped with a heating device that aims to increase the amount of power generation, and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation, provided in 95 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescing engine, two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increased power generation are provided in 96 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that has two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation and is provided in 97 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 98 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 99 stages and rotates solar heater on the water surface.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 100 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy storage cycle coalescing engines that rotate two types of blade gravity solar turbines in 101 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescing engines, in which two types of moving blade gravity solar heat turbines are provided in 102 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical bladed solar gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that rotate and tilt the water on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two kinds of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 107 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravitational solar turbines equipped with a heating device to increase are provided in 108 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 109 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 110 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Various energy storage cycle coalescing engines in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 111 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 112 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + 113 types of 2 types of full-sized bladed gravitational solar thermal turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 114 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating heavier substances vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 115 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Hot water is accelerated vertically in contact with the hot water to increase the amount of power generation. A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 117 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the amount are provided in 118 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward 119 stages equipped with two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation + a combined energy storage cycle engine that rotates and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar turbines equipped with heating devices aiming at increased power generation in 120 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees As an energy storage cycle coalescence engine, two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in one stage, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two energy saving cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming to increase power generation in two stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy conservation cycle coalescing engines that rotate two types of turbines in three stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 4 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in five stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of blade-gravity solar turbines in 6 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of moving blade gravity solar turbines in 7 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that rotate and tilt the water on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + 11 Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 12 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the surface of the water with two types of vertical rotor blade gravity solar turbines equipped with a heating device aimed at increasing in 13 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming at increased power generation in 14 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming at increasing the amount are provided in 15 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A combination of various energy storage cycle engines, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 16 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that has two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation in 17 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of full-sized bladed gravitational solar turbines equipped with heating devices aiming to increase the amount of accelerated power generation of specific critical substances vertically are provided in 18 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward in 19 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed and approaches 1200 degrees + Water is provided in 20 stages with two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact vertically downward + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 degrees + 2 types of vertical rotor blade gravity solar turbines equipped with heating device aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward in 21 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + Water is heated by compressed air acceleration and water is heated to increase power generation. Two types of vertical rotor blade gravity solar turbines with 22 stages + Energy storage cycle coalescing engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engines that rotate 2 types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming to increase the amount in 23 stages + rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined engine with various energy storage cycles, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 24 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 25 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical bladed gravitational solar heat turbines equipped with a heating device aiming to increase power generation are provided in 26 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 27 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 28 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar heat turbines in 29 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate 2 types of gravity solar heat turbines in 30 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 31 stages and rotates the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of moving blade gravity solar turbines in 32 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Vertically moving blade gravity solar heat turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + 33 types of solar heaters Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air and approaching 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 37 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Heat to aim at increasing the amount of accelerated power generation in the vertical downward direction A variety of energy conservation cycle coalescing engines, in which two types of vertical rotor blade gravity solar heat turbines equipped with equipment are provided in 38 stages + solar heaters are inclined and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming for the above are provided in 39 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines in which two types of vertical-type full-blade gravity solar turbines equipped with a target heating device are provided in 40 stages + a solar heater is inclined and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming for the above are provided in 41 stages and a solar heater is inclined and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity A combination of various energy storage cycle engines, in which two types of vertical all-blade gravity solar thermal turbines equipped with a heating device aiming for increase are provided in 42 stages + a solar heater is tilted and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Heat to aim at increasing the amount of accelerated power generation in the vertical downward direction A variety of energy conservation cycle coalescence engine that tilts and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar heat turbines equipped with equipment in 43 stages.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation A combination of various energy storage cycle engines, which are equipped with two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at 44 stages and rotate solar solar heaters on the surface of water.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward A variety of energy storage cycle coalescence engine that rotates two types of vertical type moving blade gravity solar turbines equipped with a target heating device in 45 stages and rotates a solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward A variety of energy conservation cycle coalescence engines, in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming for the above are provided in 46 stages and a solar heater is inclined and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity A combination of various energy storage cycle engines with two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase, and 47 solar power heaters that tilt and rotate on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescing engine with 48 types of + solar heating heaters tilting and rotating on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 49 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 50 stages and rotate the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 51 stages and rotate solar heaters on water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar turbines in 52 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of solar heaters on 53 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of solar heaters on 54 levels.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescing engine with 55 types of solar heaters that rotate and tilt on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescing engine with 56 types of solar power heaters that rotate and tilt on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy conservation cycle coalescing engine with 57 types of solar power heaters that tilt and rotate on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar heat turbines in 58 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Two types of gravity solar heat turbines are installed in 59 stages + various energy storage cycle coalescing engines that rotate solar heaters on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 60 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 61 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of gravitational solar turbines are installed in 62 stages and + solar heaters are inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescence engines that rotate two solar heat turbines in 63 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 64 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescence engines that rotate two solar heat turbines in 65 stages and rotate the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, in which two types of solar turbines are provided in 66 stages, and a solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 67 stages and rotate the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that provide two types of gravity solar turbines in 68 stages and rotate the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar heat turbines in 69 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 70 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar heat turbines in 71 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines, in which two types of gravity solar heat turbines are provided in 72 stages, and a solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are installed in 73 stages and + solar heaters are inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Combined engine with various energy storage cycles, with two types of blade gravity solar heat turbines installed in 74 stages and rotating the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines that rotate two types of blade gravity solar heat turbines in 75 stages and rotate the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar turbines in 76 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines, in which two types of bladed gravitational solar heat turbines are installed in 77 stages, and the solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at the same amount of maximum power generation 78 stages + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 79 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at the same maximum water output + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + 80 stages of two types of full-scale rotor blade gravity solar turbines equipped with a heating device aiming at the same maximum water output + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + 81 stages of 2 types of vertical bladed solar gravity solar turbines equipped with a heating device aiming at the same maximum water generation + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + 82 stages of two types of full-scale blade gravity solar thermal turbines equipped with a heating device aiming at the same maximum water output + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation vertically below specific critical materials + 83 stages + Various types of energy storage by tilting and rotating a solar heater on the water surface Cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating vertically downward heavier materials + 84 stages of solar heating heaters are tilted and rotated on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward contact + 85 types of solar power heaters that are inclined and rotated on the water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with hot water vertically downward + 86-stage + solar heaters are tilted and rotated on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating the air with accelerated compressed air + 87 stages + A solar heater is tilted and rotated on the water surface Various energy conservation cycle coalescing engines.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy storage cycle coalescence engine that inclines and rotates a solar heater on the water surface with two types of vertical rotor blade gravity solar turbines equipped with a heating device aimed at increasing in 88 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increased power generation in 89 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 90 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Two energy saving cycle coalescing engines that have two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation in 91 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 92 stages + various energy storage cycle coalescence engines that rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of the lens width and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + 93 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 94 types of 2 types of full-wing blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed close to 1200 degrees + Two types of vertical full blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 95 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 degrees + 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward in 96 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed close to 1200 degrees + 97 stages of two types of full-scale blade gravity solar thermal turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increasing the amount are provided in 98 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 99 stages. + Various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines equipped with heating devices aiming at increased power generation are provided in 100 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees As an energy storage cycle coalescence engine, two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 101 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generated are provided in 102 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 103 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy storage cycle coalescing engines, in which two types of bladed gravitational solar heat turbines are installed in 104 stages and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, in which two types of gravity solar heat turbines are installed in 105 stages, and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are provided in 106 stages and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two kinds of moving blade gravity solar turbines in 107 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that rotate and tilt the water on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + 109 types of 2 types of full-blade gravity solar solar turbines equipped with a heating device that accelerates heavier materials vertically downward to increase power generation Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Two types of vertical bladed gravity gravity solar turbines equipped with a heating device aiming at increased power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + 112 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees Two types of vertical rotor blade gravity solar turbines equipped with a heating device aimed at increasing are provided in 113 stages + various energy storage cycle coalescing engines that rotate and tilt solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 114 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 115 stages + various energy storage cycle coalescence engines that rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increased power generation in 116 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine with two types of vertical all-blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generated, in 117 stages, and a solar heater that tilts and rotates on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of accelerated power generation of specific critical substances vertically downward + 118 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 119 stages of 2 types of full-rotor gravity gravity solar thermal turbines equipped with a heating device that aims to increase power generation by accelerating heavier materials vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 120 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward in one stage A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and store water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that heats air with compressed air acceleration to increase power generation in two stages + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity are provided in three stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine with two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation in four stages + a solar heater that tilts and rotates on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical all-blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generated.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming to increase power generation are provided in six stages, and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation are provided in 7 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescence engine that rotates two types of turbines in 8 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of bladed gravitational solar heat turbines in 9 stages and rotates the solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 10 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy storage cycle coalescing engines that rotate 2 types of blade gravity solar turbines in 11 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescing engines that rotate two types of moving blade gravity solar turbines in 12 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of accelerated power generation in the vertically downward direction for specific critical substances + 13 solar heaters Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two kinds of vertical all blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + 17 types of 2 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device to increase in 18 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical all-blade gravity solar thermal turbines equipped with a heating device that aims to increase the amount of power generation are provided in 19 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Various energy conservation cycle coalescence engines that rotate two types of vertical type moving blade gravity solar heat turbines equipped with a heating device aiming at increasing quantity in 20 stages + rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Two energy saving cycle coalescing engines that have two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, are provided in 21 stages, and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 22 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of full-sized bladed gravitational solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically provided in 23 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air to approach 1200 degrees + 24 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Water is accelerated vertically downward to make contact with the vertical rolling blade gravity solar heat turbine with a heating device that aims to increase power generation in 25 stages. + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air compressed to approach 1200 degrees + 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward in 26 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed to approach 1200 degrees + 27 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration of water + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A variety of energy conservation cycle coalescence engine that rotates two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity in 28 stages and rotates the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy storage cycle coalescing engine in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 29 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescence engines that rotate 2 types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increased power generation in 30 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation are provided in 31 stages, and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aiming at increased power generation in 32 stages and rotate the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 33 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy storage cycle coalescing engines, in which 2 types of blade gravity solar heat turbines are provided in 34 stages and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 35 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar turbines in 36 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two kinds of moving blade gravity solar heat turbines in 37 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with heating devices aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 42 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device to be increased in 43 stages and rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar turbines equipped with a heating device to increase power generation in 44 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lifting device (2F) to save and use water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Power generation as accelerated rolling contact with water vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 45 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating high-temperature water vertically downward by providing a gravity solar power heating turbine with a turbine blade cross section (4X) of 2 to 26 times + vertical heat and heat + sunlight is heated with a long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy-saving cycle coalescence engine that drives the heating mass turbine and heating calorie turbine for power generation, and + rotates the solar thermal suspension suspension on the land.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy storage cycle coalescing engine in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase power generation are provided in 47 stages and a solar heater is tilted and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed close to 1200 degrees + Two types of full blade dynamic solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically provided in 48 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-scale blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward to 49 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed close to 1200 degrees + Two types of vertical full-blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 50 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward in 51 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhance the width of the lens Compress the heated air and bring it close to 1200 degrees + 52 stages of two types of full-size blade gravity solar thermal turbines equipped with a heating device that aims to increase power generation by heating the air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity are provided in 53 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy-saving cycle coalescing engine in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 54 stages, and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, provided in 55 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming to increase power generation are provided in 56 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 57 stages + various energy storage cycle coalescence engines that rotate solar heaters on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Combined engine with various energy storage cycles that rotate two types of turbines in 58 stages and rotate solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Combined engine with various energy conservation cycles to provide two types of blade gravity solar heat turbines in 59 stages and rotate solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 60 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar turbines in 61 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of rotor blade gravity solar turbines in 62 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of full-scale blade gravity solar thermal turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with a heating device aiming to increase power generation by accelerating and rolling water vertically downward + 65 stages + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Two types of vertical bladed gravity solar heat turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration provided in 67 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees Two types of vertical rotor blade gravity solar turbines equipped with a heating device aimed at increasing are provided in 68 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical-type full-blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 69 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 70 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar heat turbines equipped with a heating device aimed at increasing power generation in 71 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that has two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, and is provided with 72 stages + a solar heater inclined on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air of lens width and bringing it closer to 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + 73 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 74 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical full blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward are provided in 75 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward to 76 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhance the lens width Heating air is compressed to approach 1200 degrees + 77 stages of 2 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration of water + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two energy saving cycle coalescing engines with two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the amount of solar energy heaters that are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 79 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C A combination of various energy storage cycle engines that have two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, provided in 80 stages, and that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation are provided in 81 stages + a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generated are provided in 82 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 83 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 84 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 85 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are installed in 86 stages, and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of moving blade gravity solar heat turbines in 87 stages and rotates the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Vertically moving blade gravity solar heat turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical materials vertically downwards + 88 types of solar heaters Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heated air to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical all blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 92 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that have two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aimed for increase, provided in 93 stages, and + solar heaters tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward A combination of various energy storage cycle engines, in which two types of vertical rotor blade gravity solar turbines equipped with heating devices aiming at increased power generation are provided in 94 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increasing the volume are provided in 95 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 96 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine with two types of vertical all-blade gravity solar turbines equipped with a heating device that aims to increase power generation in 97 stages and rotating the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Compressing the heated air to increase the width of the lens to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + 98 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward to 99 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward are provided in 100 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with hot water vertically downward in 101 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 ° C + 102 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Two types of vertical all-blade gravity solar thermal turbines equipped with a heating device aiming to increase the amount are provided in 103 stages + various energy storage cycle coalescence engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Combined with various energy storage cycle engines, which are equipped with 104 types of vertical all-blade gravitational solar turbines equipped with a heating device that aims to increase the amount of power generation, and in which the solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, provided in 105 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 106 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 107 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines, in which two types of turbines are installed in 108 stages and a solar heater is rotated at an angle on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are provided in 109 stages and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 110 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy conservation cycle coalescing engines, in which two types of blade gravity solar heat turbines are installed in 111 stages and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy conservation cycle coalescence engine that rotates two kinds of moving blade gravity solar turbines in 112 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with heating devices aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing the heated air to approach 1200 degrees + 114 types of two vertical all blade gravity solar turbines equipped with a heating device aiming to increase the amount of power generation by accelerating heavier substances vertically downward + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two kinds of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 117 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar turbines equipped with a heating device aimed at increase in 118 stages and rotate solar heaters incline on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward 119 stages of two types of full-scale blade-driven gravitational solar thermal turbines equipped with a heating device that aims to increase power generation + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at an increase in quantity are provided in 120 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees Various energy storage cycle coalescing engines with two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation provided in one stage and rotating solar heaters inclined on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that has two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase power generation in two stages + a solar heater that tilts and rotates on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with heating devices aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downwards in four stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward are provided in five stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + high temperature water is accelerated downward and contacted vertically, and two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation in 6 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and store water + long Increased lens width Heated air is compressed close to 1200 degrees + 7 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration of water + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting in a straight line on the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees A combination of various energy storage cycle engines that are equipped with two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the quantity and are provided with 8 stages + a solar heater inclined on the water surface.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + heat up sunlight with long lens Collect in a straight line on the absorbent material + Use the warming-increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy storage cycle coalescing engine that has two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation, and is provided in 9 stages.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 10 stages + a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation are provided in 11 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar heat turbines equipped with a heating device that aims to increase power generation in 12 stages and rotate solar heaters on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescence engine that rotates two types of turbines in 13 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 14 stages and rotates a solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 15 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C. Various energy storage cycle coalescing engines that rotate 2 types of blade gravity solar turbines in 16 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates 2 types of moving blade gravity solar turbines in 17 stages and rotates the solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward contact 21 stages + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 22 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar turbines equipped with a heating device aimed at increase in 23 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 24 stages + solar heaters are inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity are provided in 25 stages + various energy storage cycle coalescence engines that rotate solar heaters on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Two types of vertical all-blade gravity solar thermal turbines equipped with a heating device that aims to increase the amount of power generation are provided in 26 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration 2 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, provided in 27 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with a heating device that aims to increase the amount of accelerated power generation of specific critical substances vertically downward + 28 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air compressed to approach 1200 degrees + 29 types of 2 types of full rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed close to 1200 ° C + 2 types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 30 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + High-temperature water is accelerated vertically downward and contacted by two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation in 31 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heated air is compressed close to 1200 degrees + 32 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration of water + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A combination of various energy storage cycle engines, in which two types of vertical all blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity are provided in 33 stages and + solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine with two types of vertical all blade gravity solar turbines equipped with a heating device that aims to increase power generation in 34 stages + a solar heater tilted and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 35 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescing engine, two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 36 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation are provided in 37 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 38 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar turbines in 39 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar heat turbines in 40 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C. Various energy storage cycle coalescing engines, in which two types of blade gravity solar thermal turbines are provided in 41 stages, and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescing engines that rotate two gravitational solar power turbines in 42 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical materials vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + 44 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + 47 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Heat to aim at increasing the amount of accelerated power generation in the vertical downward direction Combined engine with various energy storage cycles that rotate two types of vertical-type full-blade gravity solar turbines equipped with equipment in 48 stages and rotate solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation A combination of various energy storage cycle engines, in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming for the above are provided in 49 stages, and solar heaters are inclined and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward A combination of various energy storage cycle engines, in which two types of vertical all-blade gravitational solar heat turbines equipped with a target heating device are provided in 50 stages + a solar heater is inclined and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward 2 types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming for the above.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming for increase are provided in 52 stages, and solar heaters are inclined and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine-driven + Heat retention and increase ball riser (2F) to save and use water + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Heat to aim at increasing the amount of accelerated power generation in the vertical downward direction Combined engine with various energy storage cycles to rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with equipment in 53 stages + solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lift device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation Combined engine with various energy storage cycles to provide two types of vertical all-blade gravity solar turbines equipped with a heating device aiming at the +54 stages and rotate the solar heater on the surface of the water.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball riser (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the power generation amount by accelerating rolling contact with water vertically downward A variety of energy storage cycle coalescence engine that rotates two types of vertical type full-blade gravity solar heat turbines equipped with a target heating device in 55 stages and rotates a solar heater on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing sphere lifting device (2F) to save and use water + increase the width of the long lens Compress the heated air to approach 1200 degrees + increase the amount of power generation by accelerating and rolling hot water vertically downward Two energy saving cycle coalescing engines, in which two types of vertical all-blade gravitational solar turbines equipped with a heating device aiming for the above are provided in 56 stages and the solar heater is inclined and rotated on the water surface.   Configuration and method for accelerating the turbine blade cross section (4X) by 2 to 26 times gravity solar thermal power generation vertically + air pipe air is recovered by suction compression heat and heated by superheated steam (50) and compressed air (28a), respectively Turbine driven + warming and increasing ball lifting device (2F) to save and use water + long lens width increase heating air compressed to approach 1200 degrees + water heated by compressed air acceleration to generate electricity Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase. 57 types of energy storage cycle coalescing engines that rotate the solar heater on the water surface at an inclination.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescence engine with 58 types of solar power heaters that rotate and tilt on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Two types of gravity solar heat turbines are installed in 59 stages + various energy storage cycle coalescing engines that rotate solar heaters on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, in which two types of solar turbines are provided in 60 stages, and a solar heater is rotated at an angle on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 61 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar turbines in 62 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescence engine with 63 types of solar power heaters that rotate and tilt on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescence engine with 64 types of solar power heaters that rotate and tilt on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescence engine with 65 types + solar heater heated and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy conservation cycle coalescing engines that rotate the solar heater on the water surface in two stages in 66 stages.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Vertical type rotor blade gravity solar thermal turbine equipped with a heating device aiming to accelerate the amount of accelerated generation of specific critical substances vertically downward Two types of energy storage cycle coalescing engine with 67 types of solar power heaters that rotate and tilt on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that provide two types of gravity solar turbines in 68 stages and rotate the solar heater on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar heat turbines in 69 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 70 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar heat turbines in 71 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + A vertical all-blade equipped with a heating device that aims to increase the amount of power generation by accelerating heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of gravity solar heat turbines are provided in 72 stages, and a solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines, in which two types of solar turbines are installed in 73 stages and a solar heater is rotated at an angle on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 74 stages and rotate the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of solar turbines in 75 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 76 stages and rotate the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save the water and use it + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Gravity-type full blade gravity equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two solar heat turbines in 77 stages and rotate the solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 78 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescence engines that rotate two types of gravity solar turbines in 79 stages and rotate solar heaters on the surface of the water.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 80 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 81 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increased width of long lens + Compressed heated air to approach 1200 degrees + Vertically moving blades equipped with a heating device that aims to increase power generation by accelerating and rolling hot water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 82 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescing engines, in which two types of blade gravity solar heat turbines are provided in 83 stages and a solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 84 stages and rotates solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines, in which two types of bladed gravitational solar heat turbines are provided in 85 stages, and a solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are installed in 86 stages, and + solar heaters are inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Heating the air by accelerating the compressed air and heating the vertical movement with a heating device that aims to increase power generation Various energy conservation cycle coalescing engines, in which two types of blade gravity solar heat turbines are provided in 87 stages, and a solar heater is inclined and rotated on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens + Compress the heated air and bring it closer to 1200 degrees + 88 stages of two types of full-scale blade gravity solar thermal turbines equipped with a heating device aiming at the same maximum water output + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 89 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at the same maximum water generation amount + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 90 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at the same maximum water generation amount + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + 91 stages of 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming for the same maximum water generation + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   A structure and method for accelerating water vertically by installing a gravity solar power generation heating turbine with a turbine blade cross section (4X) of 2 to 26 times in a multi-stage + Storage battery-driven various ship priming + Insulation sphere raising device (2F) + Increase the width of the long lens and compress the heated air to approach 1200 degrees + 92 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at the same maximum water generation amount + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical bladed gravitational solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation in the vertically downward direction with specific critical materials + 93 types of energy storage by tilting and rotating a solar heater on the water surface Cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees 2 types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating vertically downward heavier materials + 94 stages + rotating solar heater on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward +95 types of various types of rotating solar solar heaters on the water surface Energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Two types of vertical moving blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with hot water vertically downward +96 stages of solar heating heaters are tilted and rotated on the water surface Various energy conservation cycle coalescence engine.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect linearly on the material + Increase the head with the warming-increasing ball lifting device (2F) + Use the warming-increasing ball lifting device (2F) to save and store water + Increase the width of the long lens Compress the heated air to 1200 degrees + Approaching + water is heated by compressed air acceleration, and two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase power generation are installed in 97 stages + solar heater is tilted and rotated on the water surface Various energy conservation cycle coalescing engines.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device to be increased are provided in 98 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy storage cycle coalescing engines with two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation provided in 99 stages and rotating solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount are provided in 100 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A combination of various energy storage cycle engines with two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation provided in 101 stages and rotating a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration An energy storage cycle coalescing engine in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation are provided in 102 stages and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + 103 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 104 types of 2 types of full-rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhance the width of the lens Compress the heated air and bring it closer to 1200 degrees + 105 types of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + Hot water is accelerated vertically in contact with the hot water to increase the amount of power generation. A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Compresses heated air and approaches 1200 degrees + 107 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration of water + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward A combination of various energy storage cycle engines, in which two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming to increase the amount are provided in 108 stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generated are provided in 109 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two energy saving cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation in 110 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase power generation are provided in 111 stages and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generated are provided in 112 stages.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 113 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescence engine that rotates two types of blade gravity solar heat turbines in 114 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar heat turbines in 115 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C. Various energy conservation cycle coalescence engines that rotate two types of blade gravity solar turbines in 116 stages and rotate solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescing engines that rotate and rotate a solar heater with two types of rotor blade gravity solar heat turbines in 117 stages.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + 118 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing the heated air to approach 1200 degrees + 119 stages of two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air and approaching 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward contact + solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration in two stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees Two energy saving cycle coalescing engines with two types of vertical all-blade gravity solar heat turbines equipped with a heating device to be increased in three stages + a solar heater that tilts and rotates on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Various energy storage cycle coalescing engines, in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation are provided in four stages + a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two energy saving cycle coalescing engines that have two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the quantity and are provided with 5 stages + a solar heater inclined on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Various energy storage cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in six stages, and solar heaters are inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 7 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees. + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of accelerated power generation of specific critical substances vertically downward + 8 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of full-scale blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward in 9 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 10 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar heat turbines equipped with a heating device aimed at increasing power generation by accelerating rolling contact with hot water vertically downward in 11 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed close to 1200 degrees + 12 stages of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration of water + Energy storage cycle coalescence engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Various energy storage cycle coalescing engines in which two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity are provided in 13 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming-increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine with two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation in 14 stages + a solar heater that tilts and rotates on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Various energy storage cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increased power generation in 15 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation are provided in 16 stages, and a solar heater is inclined and rotated on the surface of the water.   Turbine blade cross-section (4X) gravity solar power heating turbines with 2 to 26 times are installed in multiple stages to accelerate specific critical substances vertically downward + make use of heat and cold + heat up sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lift device (2F) to save and use water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration This is a combined energy storage cycle engine that has two types of vertical rotor blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of power generation and is provided in 17 stages.   A structure and method for accelerating water vertically downward in a heat retaining turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 18 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Combined engine with various energy storage cycles that rotates two types of blade gravity solar turbines in 19 stages and rotates solar heater on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) ) Using the rising water for storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + The vertical all-wing blade equipped with a heating device that aims to increase the amount of power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 20 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C. Various energy storage cycle coalescing engines, in which two types of blade gravity solar heat turbines are installed in 21 stages and + solar heaters are inclined and rotated on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) The water is increased and stored at + the length of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated by compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of rotor blade gravity solar heat turbines in 22 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and approaching 1200 degrees + Vertically moving blade gravity solar heat turbines equipped with a heating device that aims to increase the amount of accelerated generation of specific critical substances vertically downward + 23 types of solar heaters Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + sunlight Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating and rolling hot water vertically downward contact + 26 Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 27 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy storage cycle coalescing engines, in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device to be increased are provided in 28 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 29 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two energy saving cycle coalescence engines that rotate two types of vertical-type full-blade gravitational solar heat turbines equipped with a heating device aiming to increase the quantity in 30 stages and rotate the solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact A variety of energy conservation cycle coalescence engines that rotate two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation in 31 stages and rotate the solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generated are provided in 32 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical blade dynamic solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically downward + 33 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + 2 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward to 34 stages A combined energy storage cycle engine that rotates the installed + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output Heating turbine blades to make all turbine blades + factory electrification prime + warming and increasing ball lift device (2F) to use and store water + long Lens width increase Heating air is compressed to approach 1200 degrees + Two types of vertical full blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 35 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air is compressed to approach 1200 degrees + high-temperature water is accelerated downward in contact with the vertical water, and two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming at increased power generation are arranged in 36 stages A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increase the lens width Heating air is compressed close to 1200 degrees + 37 types of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Energy storage cycle coalescing engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees + Accelerating generation of specific critical substances vertically downward Various energy storage cycle coalescing engines in which two types of vertical all blade gravity solar thermal turbines equipped with a heating device aiming to increase the quantity are provided in 38 stages + a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward An energy storage cycle coalescence engine that rotates two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation in 39 stages and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two energy saving cycle coalescence engines that rotate two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increased power generation in 40 stages and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical-type full-blade gravity solar thermal turbines equipped with a heating device aiming at increased power generation are provided in 41 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration The energy storage cycle coalescing engine in which two types of vertical-type full-blade gravity solar turbines equipped with a heating device aiming at increased power generation are provided in 42 stages and the solar heater is inclined and rotated on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Various energy storage cycle coalescing engines that rotate two types of turbines in 43 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar heat turbines in 44 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy storage cycle coalescing engines that rotate two types of gravity solar turbines in 45 stages and rotate solar heaters on the water surface.   A structure and method for accelerating water vertically downward in the heat insulation turbine by providing gravity turbines with a turbine blade cross section (4X) of 2 to 26 times in multiple stages + Fully electrified residential prime ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy conservation cycle coalescing engines, in which two types of blade gravity solar heat turbines are provided in 46 stages, and a solar heater is inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Combined engine with various energy conservation cycles to rotate 2 types of moving blade gravity solar turbines in 47 stages and rotate solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + 48 types of vertical bladed solar gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + Two types of vertical bladed solar gravity turbines equipped with a heating device aiming to increase power generation by accelerating heavier substances vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing the heated air and bringing it closer to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to bring it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross-section (4X) structure and method of gravitational solar power generation 2 to 26 times + accelerating various battery-powered vehicles + warming and increasing sphere lifting device (2F) to use and store water + increase the width of the long lens Compressing heated air and bringing it close to 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + 52 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) gravity solar power heating turbine with 2 to 26 times multi-stage structure and method of accelerating high temperature water vertically downward + heat and cold use prime + long lens to absorb sunlight Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it close to 1200 degrees A variety of energy conservation cycle coalescence engine that rotates two types of vertical-type full-blade gravitational solar heat turbines equipped with a heating device aimed at increase in 53 stages and rotates a solar heater inclined on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collect in a straight line on the material + Use the warming-increasing sphere lifting device (2F) to save and use water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward Two energy saving cycle coalescing engines that have two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming at increased power generation, provided in 54 stages, and rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming and increasing ball lift device (2F) to save and use the water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Generating water as an accelerated rolling contact vertically downward Two energy saving cycle coalescing engines that have two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the quantity and are provided with 55 stages + a solar heater inclined on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere lifting device (2F) to save and use the water + Increase the width of the long lens Compress the heated air and bring it close to 1200 degrees + Accelerate the hot water vertically downward and contact Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 56 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power generation heating turbines are installed in multiple stages to accelerate hot water vertically downward + make use of heat and cold + heat absorption of sunlight with long lens Collecting in a straight line on the material + Using the warming-increasing sphere rising device (2F) to store and store water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation are provided in 57 stages. + Various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heating air is compressed to approach 1200 degrees + Two types of full blade dynamic solar turbines equipped with a heating device aiming to increase the amount of accelerated power generation of specific critical substances vertically below + 58 stages + Various energy conservation cycle coalescence engine that rotates solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air compressed to approach 1200 degrees + 59 types of 2 types of full-sized bladed gravitational solar heat turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward A combined energy storage cycle engine that rotates the installed + solar heater on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhance the lens width Heating air is compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward are provided in 60 stages + Energy storage cycle coalescing engine that rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Increased lens width Heated air compressed to approach 1200 degrees + Two types of vertical bladed gravitational solar heat turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with hot water vertically downward in 61 stages A combined energy storage cycle engine that rotates the installed + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation output heating equipment method to make all heating turbine blades + plant electrification primed + warming and increasing ball rising device (2F) to use and save water + long Enhance the lens width Heating air is compressed to approach 1200 degrees + Water is heated by compressed air acceleration and water is heated to increase the amount of power generation Two types of vertical rotor blade gravity solar turbines in 62 stages + Energy storage cycle coalescing engine that rotates + solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing sphere lift device (2F) to store and store water + Compressing the heated air to increase the length of the long lens and bringing it closer to 1200 degrees Two types of vertical rotor blade gravity solar heat turbines equipped with a heating device aiming to increase the quantity are provided in 63 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collect in a straight line on the absorbent material + Use the warming and increasing sphere lifting device (2F) to store and store water + Increase the width of the long lens Compress the heated air to approach 1200 degrees + Accelerate heavier substances vertically downward This is a combined energy storage cycle engine that has two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation, and is provided with 64 stages + a solar heater that tilts and rotates on the surface of the water.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming and increasing ball lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 ° C Two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase the amount of power generation are provided in 65 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and use water + Enhance the width of the long lens Compress the heated air and bring it closer to 1200 degrees + Accelerate rolling contact with hot water vertically downward As an energy storage cycle coalescence engine, two types of vertical-type full-blade gravitational solar turbines equipped with a heating device aiming at increased power generation are provided in 66 stages, and a solar heater is inclined and rotated on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity solar power heating turbines are installed in multiple stages to accelerate specific critical substances vertically downward + make use of hot and cold heat + heat sunlight with long lens Collecting linearly in the absorbent material + Using the warming-increasing sphere lifting device (2F) to store and save water + Compressing the heated air to increase the width of the long lens and bringing it closer to 1200 degrees + Heating the water with compressed air acceleration In addition, two types of vertical bladed gravitational solar heat turbines equipped with a heating device that aims to increase the amount of power generation are provided in 67 stages + various energy storage cycle coalescing engines that rotate and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Compressing the heated air of the long lens and bringing it closer to 1200 degrees + Vertically moving blade gravity solar heat equipped with a heating device aiming to accelerate the accelerated generation of specific critical substances vertically downward Combined with various energy storage cycle engines that provide two types of turbines in 68 stages and rotate the solar heater on the surface of the water.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using water for storage and storage + Increase the width of the long lens and compress the heated air to approach 1200 degrees + Vertical motion with a heating device that accelerates heavier substances vertically downward to increase power generation Various energy conservation cycle coalescing engines that rotate two types of blade gravity solar turbines in 69 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Using the rising water for storage + Compressing the heated air of the long lens to bring it closer to 1200 degrees + A vertical all-wing blade equipped with a heating device that aims to increase power generation by accelerating rolling contact with water vertically downward Various energy conservation cycle coalescing engines that rotate two types of gravity solar turbines in 70 stages and rotate solar heaters on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) Increase the width of the long lens and use it + Compress the heating air of the long lens and bring it closer to 1200 ° C + Fully-moving type equipped with a heating device that aims to increase power generation by accelerating and rolling the hot water vertically downward Various energy conservation cycle coalescing engines, in which two types of blade gravity solar heat turbines are installed in 71 stages and + solar heaters are inclined and rotated on the water surface.   Structure and method of accelerating water vertically downward in the heat insulation turbine by installing gravity solar power generation heating turbines with 2 to 26 times the turbine blade cross section (4X) + Fully electrified house prime + Heat insulation increase ball rising device (2F ) The water is raised and stored in + the width of the long lens is increased and the heated air is compressed to approach 1200 degrees + the water is heated with compressed air acceleration to increase the power generation amount Various energy storage cycle coalescence engine that rotates two types of moving blade gravity solar turbines in 72 stages and rotates solar heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase the amount of accelerated generation of specific critical substances vertically downward + Solar heater Various energy conservation cycle coalescing engines that rotate and tilt the water on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressed heating air to approach 1200 degrees + 74 types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating heavier materials vertically downward + Sun Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 ° C + Two types of vertical rotor blade gravity solar turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with water vertically downward + Solar power Various energy storage cycle coalescing engines that rotate and rotate the heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air to approach 1200 degrees + Two types of vertical bladed gravity solar heat turbines equipped with a heating device aiming to increase power generation by accelerating rolling contact with high temperature water vertically downward + Solar Various energy storage cycle coalescing engines that rotate and rotate the light heater on the water surface.   Turbine blade cross section (4X) structure and method of gravitational solar power generation of 2 to 26 times + accelerating storage battery driving various automobiles + warming and increasing sphere lifting device (2F) to save and use water + increase in long lens width Compressing heated air and bringing it close to 1200 degrees + 77 types of two types of vertical rotor blade gravity solar turbines equipped with a heating device that aims to increase power generation by heating air with compressed air acceleration + Various energy conservation cycle coalescence engine that rotates solar heater on water surface.   Various energy conservation cycle coalescence engines for driving each alternately rotating turbine blade with a turbine blade cross section (4X) 2 to 26 times in water.   Various energy storage cycle coalescence engines for driving each alternately rotating turbine blade with double turbine blade cross section (4X) with water.   Various energy storage cycle coalescence engines that drive each alternately rotating heated turbine blade with three times the turbine blade cross section (4X).   Various energy storage cycle coalescence engines for driving each alternately rotating turbine blade with four times the turbine blade cross section (4X) with water.   Various energy storage cycle coalescence engines for driving each alternately rotating heated turbine blade with a turbine blade cross section (4X) five times as much as water.   Various energy conservation cycle coalescence engines that drive each alternately rotating heated turbine blade with a turbine blade cross section (4X) 6 times larger.   Various energy storage cycle coalescence engines that drive each alternately rotating heated turbine blade with a turbine blade cross section (4X) 7 times larger.   Various energy conservation cycle coalescence engines that drive each alternately rotating heated turbine blade provided with a turbine blade cross section (4X) 8 times in water.   Various energy conservation cycle coalescence engines that drive each alternately rotating heated turbine blade with a turbine blade cross section (4X) 9 times larger.   Various energy conservation cycle coalescence engines that drive each alternately rotating heated turbine blade with a turbine blade cross section (4X) 10 times larger.   Various energy storage cycle coalescence engines for driving each alternately rotating turbine blade with 11 times the turbine blade cross section (4X) with water.   Various energy storage cycle coalescence engines that drive each alternately heated turbine blade with 12 times the turbine blade cross section (4X) with water.   Various energy storage cycle coalescence engines that drive each alternately rotating heated turbine blade with a turbine blade cross section (4X) 13 times larger than water.   Various energy conservation cycle coalescence engines that drive each alternately rotating heated turbine blade with a turbine blade cross section (4X) 14 times larger than water.   Various energy storage cycle coalescence engines that drive each alternately rotating heated turbine blade with a turbine blade cross section (4X) 15 times larger than water.   Various energy storage cycle coalescence engines that drive each alternately rotating heated turbine blade with 16 times the turbine blade cross section (4X) with water.   Various energy storage cycle coalescing engines that drive each alternately rotating turbine blade with 17 times the turbine blade cross section (4X) with water.   Various energy storage cycle coalescence engines that drive each alternately rotating heated turbine blade with a turbine blade cross section (4X) 18 times larger than water.   Various energy storage cycle coalescence engines that drive each alternately rotating heated turbine blade with 19 times the turbine blade cross section (4X) with water.   Various energy conservation cycle coalescence engines that drive each alternately rotating heated turbine blade with a turbine blade cross section (4X) 20 times larger.   Various energy storage cycle coalescence engines for driving each alternately rotating turbine blade with a turbine blade cross section (4X) 21 times as large as water.   Various energy storage cycle coalescence engines that drive each alternately rotating heated turbine blade with a turbine blade cross section (4X) 22 times larger than water.   Various energy storage cycle coalescence engines that drive each alternately rotating and heated turbine blade with 23 times the turbine blade cross section (4X).   Various energy conservation cycle coalescence engines that drive each alternately rotating heated turbine blade with a turbine blade cross section (4X) 24 times larger.   Various energy storage cycle coalescence engines that drive each alternately rotating heated turbine blade with a turbine blade cross section (4X) 25 times larger than water.   Various energy conservation cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with two types of vertical type rotor blade gravity solar turbines in 103 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating and heating turbine blade with two types of vertical blade-type all-gravity solar turbines in 104 stages.   Various energy storage cycle coalescing engines that drive two alternately rotating turbine blades with two types of vertical rotor blade gravity solar turbines in 105 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 106 types of vertical type rotor blade gravity solar turbines in 106 stages.   Various energy storage cycle coalescing engines that incline and rotate a solar heater that has two types of vertical rotor blade gravity solar turbines installed in 107 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating and heated turbine blade with 108 types of vertical solar blade gravity solar turbines in 108 stages.   Various energy storage cycle coalescence engines that drive each alternately rotating heating turbine blade with 109 types of vertical all blade gravity solar heat turbines in 109 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade which provided two types of vertical type rotor blade gravity solar heat turbine in 110 stages with water.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades with two types of vertical blade-type all-gravity solar turbines arranged in 111 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with 112 kinds of vertical type rotor blade gravity solar heat turbine in 112 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with 113 types of vertical type rotor blade gravity solar heat turbine in 113 stages.   Various energy storage cycle coalescence engine that drives each alternately rotating heating turbine blade with 114 types of vertical type rotor blade gravity solar heat turbine in 114 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with 115 types of vertical type rotor blade gravity solar turbines in 115 stages.   Various energy storage cycle coalescing engines that drive each of the alternately heated turbine blades, each of which is provided with two types of vertical type moving blade gravity solar turbines in 116 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with 117 types of vertical all blade gravity solar heat turbines in 117 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating and heating turbine blade with 118 types of vertical type rotor blade gravity solar turbines in 118 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with 119 stages of two types of vertical rotor blade gravity solar turbines in 119 stages.   Various energy storage cycle coalescence engine that drives each alternately rotating heating turbine blade with 120 types of vertical type rotor blade gravity solar heat turbine in 120 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades with two types of vertical rotor blade gravity solar turbines in one stage.   Various energy conservation cycle coalescing engines that drive each alternately rotating turbine blade with two types of vertical type rotor blade gravity solar turbines in two stages.   Various energy storage cycle coalescing engines that drive each alternately rotating turbine blade with two types of vertical type moving blade gravity solar turbines in three stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with four types of vertical type moving blade gravity solar turbines in four stages.   Various energy conservation cycle coalescence engines that drive each alternately rotating turbine blade with 5 types of vertical type rotor blade gravity solar turbines in 5 stages.   Various energy storage cycle coalescence engine that drives each alternately rotating heating turbine blade with 6 types of vertical type moving blade gravity solar turbines in 6 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating and heating turbine blade with 7 types of vertical all blade gravity solar turbines in 7 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with eight types of vertical all blade gravity solar turbines in 8 stages.   Various energy conservation cycle coalescing engines which drive each alternately rotating turbine blade with two types of vertical type moving blade gravity solar turbines in 9 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with two types of vertical type moving blade gravity solar heat turbine in 10 stages.   Various energy conservation cycle coalescence engines that drive each alternately rotating heating turbine blade with 11 types of vertical type moving blade gravity solar turbines in 11 stages.   Various energy storage cycle coalescence engine that drives each alternately rotating heating turbine blade with 12 types of vertical all blade gravity solar heat turbine in 12 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with two types of vertical type rotor blade gravity solar heat turbine in 13 stages with water.   Various energy conservation cycle coalescence engines that drive each alternately rotating turbine blade with 14 types of vertical type rotor blade gravity solar turbines in 14 stages.   Various energy conservation cycle coalescing engines that drive each alternately rotating heated turbine blade with 15 types of vertical solar blade gravity solar turbines in 15 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with 16 types of vertical type rotor blade gravity solar turbines in 16 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 17 types of vertical type rotor blade gravity solar turbines in 17 stages.   Various energy conservation cycle coalescing engines that drive each alternately rotating heated turbine blade with water using 18 types of vertical all blade gravity solar turbines in 18 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with 19 types of vertical type rotor blade gravity solar turbines in 19 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 20 types of vertical type moving blade gravity solar turbines in 20 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 21 types of vertical type full-blade gravity solar heat turbines in 21 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade with 22 types of vertical type moving blade gravity solar turbines in 22 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with 23 types of vertical type moving blade gravity solar heat turbine in 23 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 24 types of vertical rotor blade gravity solar turbines in 24 stages.   Various energy conservation cycle coalescing engines that drive each alternately rotating heated turbine blade with 25 types of vertical all blade gravity solar heat turbines in 25 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with 26 types of vertical all blade gravity solar turbines in 26 stages.   Various energy conservation cycle coalescence engine which drives each alternately rotating heating turbine blade provided with 27 types of vertical type rotor blade gravity solar heat turbine in 27 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 28 types of vertical type rotor blade gravity solar heat turbine in 28 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with 29 types of vertical solar blade gravity solar turbines in 29 stages.   Various energy conservation cycle coalescence engines that drive each alternately rotating and heating turbine blade with two types of vertical type rotor blade gravity solar turbines in 30 stages.   Various energy conservation cycle coalescing engines that drive each alternately rotating and heating turbine blade with 31 types of vertical solar blade gravity solar turbines in 31 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 32 types of vertical type rotor blade gravity solar turbine in 32 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with 33 types of vertical type full-rotor blade gravity solar heat turbine in 33 stages.   Various energy conservation cycle coalescence engine which drives each alternately rotating heating turbine blade provided with 34 types of vertical type rotor blade gravity solar heat turbine in 34 stages.   Various energy conservation cycle coalescing engines that drive each alternately rotating and heating turbine blade with two types of vertical type moving blade gravity solar turbines in 35 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 36 types of vertical all blade gravity solar thermal turbines in 36 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with 37 types of vertical type moving blade gravity solar heat turbine in 37 stages.   Various energy storage cycle coalescence engine that drives each alternately rotating heating turbine blade with 38 types of vertical type rotor blade gravity solar turbines in 38 stages.   Various energy conservation cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 39 types of two types of vertical-type full-blade gravity solar turbines in 39 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 40 types of vertical type moving blade gravity solar turbines in 40 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 41 types of vertical all blade gravity solar turbines in 41 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with 42 types of vertical type rotor blade gravity solar heat turbine in 42 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 43 types of vertical all blade gravity solar turbines in 43 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 44 types of vertical type rotor blade gravity solar turbines in 44 stages.   Various energy storage cycle coalescence engine that drives each alternately rotating heating turbine blade with 45 types of vertical type rotor blade gravity solar turbine in 45 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 46 types of vertical type rotor blade gravity solar heat turbine in 46 stages.   Various energy storage cycle coalescence engine that drives each alternately rotating heating turbine blade with 47 types of vertical all blade gravity solar heat turbine in 47 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with 48 types of vertical type rotor blade gravity solar turbines in 48 stages.   Various energy conservation cycle coalescence engines that drive each alternately rotating and heating turbine blade with 49 types of two types of vertical all blade gravity solar heat turbines in 49 stages.   Various energy conservation cycle coalescence engine which drives each alternately rotating turbine blade with 50 types of vertical type rotor blade gravity solar turbines in 50 stages.   Various energy storage cycle coalescing engines which drive each alternately rotating turbine blade with two types of vertical type rotor blade gravity solar heat turbine in 51 stages.   Various energy conservation cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with two types of vertical type rotor blade gravity solar turbines in 52 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with 53 types of vertical type rotor blade gravity solar turbine in 53 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with 54 types of vertical type rotor blade gravity solar heat turbine in 54 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with two types of vertical type rotor blade gravity solar heat turbine in 55 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 56 types of vertical type moving blade gravity solar turbines in 56 stages.   Various energy conservation cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with two types of vertical type rotor blade gravity solar turbines in 57 stages.   Various energy conservation cycle coalescence engines that drive each alternately rotating turbine blade with 58 types of vertical type rotor blade gravity solar turbines in 58 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 59 types of vertical type rotor blade gravity solar heat turbine in 59 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades with two types of vertical type rotor blade gravity solar turbines in 60 stages.   Various energy conservation cycle coalescing engines that drive each alternately rotating and heating turbine blade, which is provided with 61 types of vertical all-blade gravity solar heat turbines in 61 stages.   Various energy storage cycle coalescence engine that drives each alternately rotating heating turbine blade with 62 types of vertical all blade gravity solar heat turbine in 62 stages.   Various energy storage cycle coalescence engine that drives each alternately rotating heating turbine blade with 63 types of vertical all blade gravity solar heat turbine in 63 stages.   Various energy storage cycle coalescence engines that drive each alternately rotating turbine blade with 64 types of vertical type rotor blade gravity solar heat turbines in 64 stages.   Various energy conservation cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 65 types of vertical all blade gravity solar turbines in 65 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with 66 kinds of vertical type rotor blade gravity solar heat turbine in 66 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating and heating turbine blade with 67 types of vertical all blade gravity solar turbines in 67 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 68 types of vertical type rotor blade gravity solar turbine in 68 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating turbine blades, which are equipped with two types of vertical type rotor blade gravity solar turbines in 69 stages, with water.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with two types of vertical type moving blade gravity solar heat turbine in 70 stages with water.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade which provided two kinds of vertical type moving blade gravity solar turbines in 71 stages with water.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with 72 types of vertical all blade gravity solar turbines in 72 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade provided with 73 types of vertical type rotor blade gravity solar heat turbine in 73 stages.   Various energy storage cycle coalescing engines that drive each of the alternately heated turbine blades with 74 types of vertical all blade gravity solar turbines in 74 stages.   Various energy storage cycle coalescence engine which drives each alternately rotating heating turbine blade which provided two kinds of vertical type moving blade gravity solar turbines in 75 stages with water.   Various energy storage cycle coalescence engine that drives each alternately rotating heating turbine blade with 76 types of vertical type rotor blade gravity solar turbine in 76 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 77 types of vertical type rotor blade gravity solar turbines in 77 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 78 types of vertical type rotor blade gravity solar heat turbine in 78 stages.   Various energy storage cycle coalescence engine that drives each alternately rotating heating turbine blade with 79 types of vertical type rotor blade gravity solar heat turbine in 79 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with two types of vertical type rotor blade gravity solar turbines in 80 stages.   Various energy storage cycle coalescence engines that drive each alternately rotating heating turbine blade with 81 types of vertical type rotor blade gravity solar turbines in 81 stages.   Various energy conservation cycle coalescing engines that drive each alternately rotating and heating turbine blade with 82 types of vertical all blade gravity solar turbines in 82 stages.   Various energy storage cycle coalescence engines that drive each alternately rotating heated turbine blade with 83 types of vertical type rotor blade gravity solar heat turbine in 83 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with 84 types of vertical type rotor blade gravity solar turbines in 84 stages.   Various energy conservation cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with two types of vertical type rotor blade gravity solar turbines in 85 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 86 types of vertical all blade gravity solar heat turbine in 86 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with 87 types of vertical all blade gravity solar turbines in 87 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades with two types of vertical-type full-wing blade gravity solar turbines in 88 stages.   Various energy storage cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 89 types of vertical all blade gravity solar turbines in 89 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating and heating turbine blade with 90 types of vertical type rotor blade gravity solar turbines in 90 stages.   Various energy conservation cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with two types of vertical type rotor blade gravity solar turbines in 91 stages.   Various energy storage cycle coalescence engine that drives each alternately rotating heating turbine blade with 92 types of vertical solar blade gravity solar turbines in 92 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 93 types of vertical all blade gravity solar heat turbine in 93 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 94 types of vertical type rotor blade gravity solar heat turbine in 94 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating and heating turbine blade with 95 types of vertical type rotor blade gravity solar turbines in 95 stages.   Various energy storage cycle coalescing engines that drive each alternately rotating heated turbine blade with 96 types of vertical type rotor blade gravity solar heat turbines in 96 stages.   Various energy conservation cycle coalescence engine that drives each alternately rotating heating turbine blade with 97 types of vertical all blade gravity solar heat turbine in 97 stages.   Various energy conservation cycle coalescing engines that drive each of the alternately rotating and heating turbine blades with 98 types of vertical all blade gravity solar turbines in 98 stages.   Various energy conservation cycle coalescing engines that drive each of the alternately rotating and heating turbine blades provided with 99 types of vertical solar blade gravity solar turbines in 99 stages.   Various energy storage cycle coalescence engines that drive each alternately rotating heating turbine blade with two types of vertical type moving blade gravity solar turbines in 100 stages.   Various energy storage cycle coalescence engine that drives each alternately rotating and heating turbine blade with two types of vertical all blade gravity solar heat turbine in 101 stages.   Various energy conservation cycle coalescence engines that drive each alternately rotating heating turbine blade with two types of vertical type moving blade gravity solar turbines in 102 stages.